KR102358779B1 - Photovoltaic(PV) System of slope fixed type with Waterproofing - Google Patents

Abstract

It is an inclined fixed type photovoltaic power generation device with a waterproof function,
A waterproof panel is installed on the structure truss and structure C channel connected to the structure structure column to discharge rain or snow falling to the outside to prevent rain leakage into the structure,
The waterproof panel clamp and aluminum profile are fixed with a support bracket for installing the solar module on the waterproof panel, and the ends of the solar modules are sequentially placed on the top of the profile to form a T-shape where the module can be attached and detached from the top. Fix it with the middle T clamp clip that holds the module and the end clamp clip that holds the end of one module.
In another way, unlike the waterproofing function inclined fixed type photovoltaic power generation device with the waterproofing panel, it is a method of treating the falling water between the module and the module as a drain pipe. and fixing the module support for mechanically fixing the module to the structure C channel at the support fixing angle, fixing the aluminum profile for fixing the general photovoltaic module in the center of the M-shaped module support, and the sun on the top of the profile Fix the optical module with the middle T clamp clip and the end clamp clip,
The left and right gradient sub-drain pipe that induces natural flow by giving a gradient to the water flow after receiving the leakage of the upper and lower module gaps from the bottom of the module among the rainwater flowing between the solar module and the module of the roof. composing the main drain pipe,
In case of rain, rainwater that has flowed into the module, waterproof panel, or vertical slope main drain pipe is sent to the drip tray installed by fixing it to the C-shaped steel installed on the roof eaves equipped with a screen to prevent foreign matter, In order to prevent overflow of the gutter due to the inflow of rainwater, the discharge port overflower for external treatment and the discharge of rainwater from the gutter are structured to discharge to the ground through the gutter installed along the pillar of the structure,
In the space between the waterproof panel or the drain pipe and the module, a natural ventilation passage is formed in the module gap or the space at the upper end of the module to cool the heat generated by the module with natural ventilation, thereby improving the efficiency of the solar power generation device and providing waterproofing. Economical and physical effect by reducing construction costs by using a roof material as a general PV solar module rather than installing an expensive waterproof roof while simultaneously implementing an architectural role and photovoltaic power generation, an endless eco-friendly renewable energy It is a waterproof function, inclined fixed type photovoltaic power generation device that can reap

Description

Photovoltaic (PV) System of slope fixed type with Waterproofing}

The present invention relates to an inclined fixed photovoltaic power generation system having a waterproof function, and more particularly, a waterproof panel or It relates to an inclined fixed type photovoltaic power generation device that constitutes a drainage passage of a natural gradient and enables natural ventilation for temperature rise and fall of solar modules.

Photovoltaic power generation generates electric power by irradiating light energy on a solar cell (module) made of semiconductor and converting light energy into direct current electricity. It has the advantages of less waste generation, no mechanical vibration and noise, a long lifespan of at least 25 years, and easy maintenance.

In general, a photovoltaic power generation system includes a photovoltaic module that converts light energy into direct current electrical energy, an inverter that converts direct current power into alternating current power, and a connection that delivers direct current power generated from the photovoltaic module to the inverter. The AC power converted by the inverter is sent to the power grid system by a separate AC switchboard and is supplied to the premises or customers for use.

Since the amount of electrical energy generated from a unit solar cell is very small, several solar cell groups are usually manufactured as a module, and an array of a plurality of photovoltaic modules is configured in a group in series and these groups are again paralleled. united to obtain the necessary power.

The installation of a module, which is a key material in solar power generation, which is an eco-friendly new and renewable energy, requires a certain size of structure and space, and in general, the required horizontal area of a module for generating 1KW of electricity requires a space of at least 5 square meters. . In urban areas, it is not easy to secure space, so there are more cases of installing it in outdoor parking lots or rest areas such as outdoor ground or rooftops.

The slope-fixed photovoltaic (PV) installed in such outdoor parking lots or rest areas such as outdoor ground or rooftop can have the effect of reducing the cost of securing a space for installing solar power facilities, but it may cause inconvenience to users due to rainwater leakage. There are problems that are causing it.

This is a waterproof, inclined fixed-type photovoltaic power generation device with a waterproof function that prevents leakage of rainwater by arranging a drainage pipe between a waterproof panel or module made of a plated iron plate with a thickness of 1 mm or less or a synthetic resin material with a thickness of 3 mm or less between the C channel and the module of the photovoltaic structure. It can be collected and discharged to the ground through the gutter through the gutter to form a structure that does not leak due to rain or snow under the photovoltaic device structure.

At this time, the cooling of the heat generated by the module requires a structure that is naturally discharged into the space between the module and the waterproof panel.

The material and composition of the structure to withstand the maximum wind speed of the installation site is required.

In this way, by installing a Waterproofing Slope Fixed Photovoltaic, a waterproofing architectural role and solar power generation, an endless eco-friendly new and renewable energy, are simultaneously realized. It is possible to achieve economical and physical effects by providing a comfortable, shaded place without leaks because it reduces construction costs and installs a waterproof module.

The present invention provides a waterproof inclined fixed type photovoltaic power generation device designed to solve architectural engineering problems, water leakage treatment problems in case of rain, natural ventilation problems required by module generation heat treatment, etc. want to

The present invention in order to solve the above problems,

As a waterproofing slope fixed photovoltaic device,

In a general inclined fixed type solar structure, a waterproof panel 700 is installed on the structure truss 800 and C channel 600 connected to the structure column 810 to prevent rain or snow from leaking into the structure by discharging it to the outside. and fixing the waterproof panel clamp 270 and the aluminum profile 220 with a support for installing the solar module on the waterproof panel 700, and the solar module 100 end on the profile 220 is arranged in a row and fixed with a middle T clamp clip 200 that holds the ends of two modules in a T-shape that can be detached from the module and an end clamp clip 210 that holds the ends of one module.

In another way, unlike the waterproofing function inclined fixed type photovoltaic power generation device with the waterproofing panel 700, it is a method of treating the falling water between the module and the module as a drain pipe, and the main drain pipe (300) and the left and right gradient sub drain pipe (350) is installed,

In order to fix the drain pipe and structurally fix the module support 250 for mechanically fixing the module, it is fixed to the structure C channel 600 with a support fixing angle 370,

After fixing the M-shaped module support 250, the aluminum profile 220 for fixing the general photovoltaic module 100 in the center is fixed,

A middle T clamp clip 200 that holds the ends of two modules in a T-shape that can be attached and detached from the upper part by arranging the ends of the photovoltaic modules 100 consecutively on the upper part of the profile 220 and one module. It is fixed with the end clamp clip 210,

The solar module 100 of the roof and the left and right gradient sub-drain pipe 350 that receives the leakage of the upper and lower module gaps among the rainwater flowing between the modules from below the module 100 and induces a natural flow by giving a gradient to the water flow. The left and right module gap rainwater treatment constitutes the vertical slope main drain pipe 300 with a roof slope.

Rainwater flowing in from the module 100 or the waterproof panel 700 or the vertical gradient main drain pipe 300 in case of rain

For treatment, it is sent to the drip tray 900 installed by fixing to the C-shaped steel 600 installed on the left and right sides of the roof eaves on which the screen 920 for preventing foreign substances is installed, and due to excessive rainwater inflow into the module upper part and the module gap due to sudden heavy rain. In order to prevent the gutter 900 from overflowing, the discharge port overflower 930 for external treatment and the discharge of rainwater from the gutter 900 are discharged to the ground through the sun gutter 950 installed along the structure pillar 810.

In the space between the waterproof panel or the drain pipe and the module, a natural ventilation passage is formed in a gap between the module or the space at the upper end of the module to cool the heat generated by the module by natural ventilation.

As described above, the present invention

This is a waterproof, slope-fixed type photovoltaic power generation device. It increases the waterproofing effect by inducing rainwater that penetrates into the lower part through the module gap through the waterproof panel or the upper and lower left and right drain pipes. It provides two physical and economic effects: an architectural solution to secure a waterproof space and secure new and renewable energy for photovoltaic devices by inducing natural ventilation to the end open space and cooling the module heat.

In addition, it is possible to achieve the effect of easy maintenance as the solar module was invented in a structure that can be removed and installed from the top.

1 is a side view of an inclined fixed type photovoltaic device applied to a waterproof panel according to an embodiment of the present invention;
Figure 2 is a front view in the case of Figure 1;
3 is a front cross-sectional view in the case of FIG.
Figure 4 is a detailed view of the waterproof panel clamp in the case of Figure 3;
Figure 5 is a detailed view of the solar structure connection in the case of Figure 1;
6 is a side view of a drain pipe applied inclined fixed type photovoltaic power generation device according to an embodiment of the present invention;
7 is a front view in the case of FIG.
8 is a plan view in the case of FIG.
9 is a cross-sectional view in the case of FIG.
10 is a detailed view of the module support in the case of FIG.
11 is a detailed view of the drain pipe connection in the case of FIG.
12 is a detailed view of parts according to an embodiment of the present invention;
Figure 13 is a detailed view of parts in the case of Figure 1;
14 is a detailed view of parts in the case of FIG.
15 is a solar power generation system diagram

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings as follows.

In addition, the terms used in the present invention have been selected as widely used general terms as possible, but in specific cases, there are also terms arbitrarily selected by the applicant, and in this case, the meaning is described in detail in the description of the corresponding invention, so it is a simple term It is intended to clarify that the present invention should be understood as the meaning of the term, not the name. In addition, in describing the embodiments, descriptions of technical contents that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted. This is to more clearly convey the gist of the present invention without obscuring the gist of the present invention by omitting unnecessary description.

In addition, specific structural or functional descriptions presented in the embodiments of the present invention are only exemplified for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may be implemented in various forms. have. In addition, it should not be construed as being limited to the embodiments described in this specification, and it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present specification, terms such as "comprises" or "have" are intended to designate the existence of an embodied feature, number, step, operation, component, part, or combination thereof, one or more other features or numbers, It should be understood that the existence or addition of steps, operations, components, parts or combinations thereof is not precluded in advance.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a side view of a waterproof function inclined fixed type solar power generation device of a parking lot according to an embodiment of the present invention, which is arranged from a high (upper) position on the right side to a low (lower) position on the left side. In order to place the photovoltaic module 100 as a power generation device, it is fixed to the ground foundation or the roof slab with anchor bolts, and the steel structure C is connected up and down to the steel structure column 810 erected vertically. A channel 600 is arranged and a waterproof panel 700 made of plated or painted iron plates or synthetic resin material with a thickness of 3 mm or less is arranged and fixed thereon, and a support bracket waterproof panel for installing a solar module on the waterproof panel 700 The clamp 270 and the aluminum profile 220 are fixed, and the ends of the photovoltaic modules 100 are sequentially placed on the top of the profile 220 to form a T-shape that allows the module to be attached and detached from the top. It is fixed with the middle T clamp clip 200 and the end clamp clip 210 that holds the end of one module.

In order to treat the inflow of rainwater between the solar module 100 and the module when it rains in the installation of the device

It is sent to the drip tray 900 installed by fixing to the C-shaped steel 600 arranged on the left and right on the eaves of the roof equipped with the screen 920 for preventing foreign substances, and external treatment when excessive rainwater flows into the module upper part and the module gap due to sudden heavy rain Rainwater flowing into the overflower 930 and the drip tray 900, which is a discharge port for

In the space between the waterproof panel 700 and the module 100, a natural ventilation passage is formed in the module gap or the spaced space of the upper end of the module to cool the heat generated in the module 100 by natural ventilation.

Figure 2 is a front view of the waterproof inclined fixed type photovoltaic power generation device of the parking lot according to the embodiment of Figure 1;

The structure truss 800 is connected up and down to the structure pillar 810, and the C-shaped steel 600 is arranged on the right and left right and left on it, and the waterproof panel 700 is arranged on the entire roof and fixed thereon, and the waterproof panel Fixing the waterproof panel clamp 270 and the aluminum profile 220, which are support fixtures for installing the photovoltaic module, and placing the ends of the photovoltaic module 100 consecutively on the profile 220, so that the module can be attached or detached from the upper part. In fixing with the middle T clamp clip 200 that holds the ends of two modules in a T-shape as possible and the end clamp clip 210 that holds the ends of one module, the waterproof panel 700 is formed at regular intervals within 1 m. The connecting part is arranged in parallel with the structure truss 800 in which both wings are erected in the U-shape of a rectangular iron plate material, and fixed to the waterproof panel clamp 270 installed in the waterproof panel 700 connection part. Profile 220 is to be arranged left and right parallel to the structure C channel (600).

At this time, as shown in FIG. 1 , the module is disposed in the structure, and side finishing materials 150 such as iron plates can be treated on both ends of the left and right ends for aesthetic treatment of the vertically inclined portions.

3 is a front cross-sectional view of a waterproof inclined fixed type photovoltaic power generation device of a parking lot according to an embodiment of FIG.

Ordinary steel ㅁ or O or H-shaped steel structure with bolts on the upper part of the truss 800 Connect the waterproof panel 700 made of synthetic resin material by overlapping the wings at regular intervals within 1 m, and fix the two waterproof panel 700 connecting wing parts with a panel clamp 270 to the connection part while tightening the aluminum square shape on it. After fixing the profile 230 of the bolt, a plurality of photovoltaic modules 100 are arranged and fixed with a middle T clamp clip 200 from the upper part. At this time, a gutter 900 and a sun gutter 950 are also installed for rainwater drip treatment on the lower eaves side.

4 is a detailed view of the waterproof panel clamp in the case of FIG. 3, and in the case of a detailed view A, is a detailed view of fixing the photovoltaic module 100 with a middle T clamp clip 200 between the modules when two sheets are arranged left and right, and in the case of detailed view B is a detailed view of fixing the end clamp clip 210 between the modules when one right side is arranged at the end of the photovoltaic module 100. and arranging the connecting vertical wing parts of the U-shaped waterproof panel 700 to overlap, and fixing the part by fastening the panel clamp 270, which is a metal fitting, with bolts,

Fixing the aluminum square bar-shaped profile 230 for the module 100 fixing key on the upper part.

Figure 5 is a detailed view of the solar structure connection in the case of Figure 1, in the case of a detailed view C, a gutter (900) installed to prevent damage to pedestrians or users due to rainwater falling on the lowest eaves where the module 100 is arranged. It is a detailed view of fixing to the structure C channel 600 fixed to the structure truss 800 to support the It is a detailed view of fixing the H or O or ㅁ shape plated or painted steel structure truss 800 with bolts.

6 is a side view of a water-repellent fixed-type solar photovoltaic device with a drainage pipe applied according to an embodiment of the present invention; In arranging the solar module 100, the C-shaped steel 600 is placed on the left and right on the structure truss 800 connected up and down to the structure pillar, and the drainage pipe is placed without arranging the waterproof panel 700 of FIG. 1 on it. In the structure of The M-shaped module support 250 for fixing the drain pipe and mechanically fixing the module is structurally fixed to the C-shaped steel 600 with bolts, and then the aluminum alloy profile 220 is fixed, and the profile 220 is upper The end of the solar module 100 is placed in succession on the upper part, so that the module can be attached and detached from the upper part, and the middle T clamp clip 200 that holds the ends of two modules in a T-shape and the end clamp clip 210 that holds the ends of one module ) to be fixed.

In order to treat the inflow of rainwater between the solar module 100 and the module when it rains in the installation of the device

It is sent to the drip tray 900 installed by fixing to the C-shaped steel 600 arranged on the left and right on the eaves of the roof equipped with the screen 920 for preventing foreign substances, and external treatment when excessive rainwater flows into the module upper part and the module gap due to sudden heavy rain The rainwater from the drip tray 900 to which the overflower 930, which is a discharge port for , and the screen 920 for preventing foreign substances is attached, is discharged to the ground through the sun gutter 950 installed along the structure pillar 810.

A natural ventilation passage is formed in the space between the waterproof panel 700 and the module 100 as a gap between the module or the space at the upper end of the module 100 to cool the heat generated in the module 100 by natural ventilation.

7 is a front view of a waterproof inclined fixed type photovoltaic power generation device of a parking lot according to an embodiment in the case of FIG.

The structure truss 800 is connected up and down to the structure column 810, and the C-shaped steel 600 is placed on the right and left right and left on it, and the drain pipe is placed on it. ) to form a left and right gradient sub-drain pipe 350 that induces a natural flow by giving a gradient to the horizontal water flow of rainwater in the upper and lower module gaps, and an M-shaped module support 250 for fixing the drain pipe and mechanically fixing the module Structure C is structurally fixed to the channel 600, then the aluminum profile 220 is fixed, and the ends of the solar modules 100 are sequentially arranged on the top of the profile 220 so that the module can be attached and detached from the upper part, and the T-shaped It is fixed with a middle T clamp clip 200 that holds the ends of two modules in a shape and an end clamp clip 210 that holds the ends of one module, and at this time, as shown in FIG. It is also possible to process the side finishing material 150 such as an iron plate.

FIG. 8 is a plan view viewed from the top in the case of FIG. 6, showing a PV solar module 100 having a size of 1-2 m2, which is a standard product mass-produced with an approximate width:length ratio of 1:2 and 1:1.6, and the upper part of the drawing is a high From the (top) position to the low (bottom) position of the roof below, in the vertical direction vertically, 3 modules, left and right, a plan view of each solar module 100 in the vertical direction of the left and right aluminum edges 1 At the /4 point and 3/4 point, the end at which the solar module 100 is connected with the middle T clamp clip 200 at each of 4 places in one solar module 100 is the end clamp clip 210 to the module support ( 250) is fixed.

At this time, the clamp clip passes between the left and right modules, and a gap of 10mm to 30mm is created. When it rains, rainwater flows down the module 100. It consists of a left and right gradient sub-drain pipe 350 that induces water flow by giving a slight inclination to the drain pipe 300 and the rainwater flowing into the upper and lower module intervals to the up-and-down gradient main drain pipe 300 .

9 is an example of a cross-sectional view in the case of FIG. 8, and in the case of cross-section AA, an M-shaped steel module support 250 is installed in the structure C channel 600, and a vertical gradient main drain pipe 300 is installed in the module support 250. and fixing the aluminum profile 220 for fixing the PV photovoltaic module 100 to the center of the M-shaped module support 250, and the end of the photovoltaic module 100 on the profile 220 It is an illustration of fixing with a middle T-clamp clip 200 that holds the ends of two modules in a T-shape that can be placed in succession and attaches and detaches modules from the top and an end clamp clip 210 that holds the ends of one module, and the cross section of BB In this case, the rainwater flowing into the gap between the left and right modules of the photovoltaic module 100 is directed to the vertical gradient main drain pipe 300 of the structure truss 800 gradient, and the rainwater flowing into the gap between the upper and lower modules is inclined by the position difference. It is a cross-sectional view composed of a left and right gradient sub-drain pipe 350 for inducing a given water flow.

Figure 10 is a detailed view of the module support in the case of Figure 9. In the case of E, when two sheets of photovoltaic module 100 are arranged on the left and right, the middle T clamp clip 200 is used to fix the photovoltaic module 100 between the modules. It is a detailed view of fixing with an end clamp clip 210 between the modules when one right side is arranged at the end of the solar module 100. The profile 230 is arranged and fixed.

11 is a detailed view of the drain pipe connection of the cross-sectional view BB of FIG. 9. The detailed view G is the detailed height of the support fixing angle 370 for fixing the M-shaped module support 250 to the structure C channel 600, and detailed views H and I are It is a detailed view of the left and right support fixing angles 370 for fixing the vertical gradient main drain pipe 300 and the left and right gradient sub drain pipe 350 .

12 is a detailed view of parts according to an embodiment according to the present invention. An aluminum frame-shaped end clamp clip 210 for fixing the end of the module, and an aluminum frame-shaped middle T clamp clip 200 for fixing the key at both ends of the module. , a profile 220 in the form of an aluminum frame with grooves on four sides for easy fixing of clamp clips on four sides, a plated or painted U-shaped steel structure truss 800 and a plated or painted steel structure C channel (600) ) is a detail view.

13 is a detailed view of parts in the case of a fixed-inclined photovoltaic power generation device using the waterproof panel 700 of FIG. 1, in the form of a U-shaped paddy field, in which both wings are erected by changing the shape of the part where the panels are overlapped and installed with a thickness of 1 mm or less. A panel that allows the installation of the profile 220 for supporting the module 100 while mechanically holding the overlapping wing portions on both sides of the waterproof panel 700 and the waterproof panel 700 made of plated or promoted steel plate or synthetic resin material with a thickness of 3 mm or less. It is a detailed view of the waterproof panel holder 260, which is a metal fitting for fixing the left and right shapes of the clamp 270 to the structure C channel 600 between the waterproof panels 700 when connecting them.

14 is a detailed view of the parts of the inclined fixed type photovoltaic power generation device applied to the drain pipe according to an embodiment of the present invention of FIG. 6, and the thickness of the structure in which both wings are erected in the shape of a U-shaped erection is 1 mm or less steel plate or 3 mm or less in thickness; The left and right slope sub drain pipe 350 of synthetic resin material, the support fixing angle 370 fixed at 90 degrees between the upper and lower left and right drain pipes to fix the drain pipe, and the U-shaped rice paddy to handle rainwater flowing into the gap between the left and right modules Medium vertical gradient main drain pipe 300 of steel plate with a thickness of less than 1 mm or synthetic resin material with a thickness of 3 mm or less in shape, a vertical gradient main drain pipe 310 with a small width installed at the end, to support the module while holding the position of the drain pipe It is a detailed view of the middle M-shaped module support 250 and the end module support 250 of the anti-rust plating or anti-rust coating steel.

15 is a configuration diagram of a waterproof inclined fixed type photovoltaic power generation device according to an embodiment of the present invention. It is a schematic diagram of the supply of photovoltaic electrical energy.

Although the present invention has been described with the above examples, the present invention is not necessarily limited to these examples, and various modifications may be made within the scope without departing from the technical spirit of the present invention. Therefore, the examples posted in the present invention are for explanation rather than limiting the technical spirit of the present invention, and the scope of the technical spirit of the present invention is not limited by these examples. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: PV solar module 150: Side finishing material
200: middle T clamp clip 210: end clamp clip
220: profile 230: profile fixing bolt
250: M-shaped module support 260: waterproof panel fixture
270: panel clamp 300: vertical gradient main drain pipe (middle)
310: vertical gradient drain pipe (END) 350: left and right gradient sub drain pipe
370: support fixed angle 600: structure C channel (left and right)
700: waterproof panel 800: structure truss (top and bottom)
810: photovoltaic structure pillar 900: drip tray
920: screen 930: overflow
950: sun gutter

Claims (5)

An inclined fixed type photovoltaic power generation device with a waterproof function, which is fixed to the anchor bolt of the floor foundation, and serves as a pivot to the structure. A number of structural trusses 800 connected up and down to the upper part of a plurality of structural pillars 810; and the structural truss 800, configured at right angles to support the weight of the photovoltaic module 100, etc. and to maintain the structure dog steel structure C channel (600); On the structure C channel 600, the falling water caused by the inflow of rainwater between modules is treated to the outside, and the shape of the wing part with both ends erected in a U-shaped form is different, so that several panels can be overlapped for installation by plating or painting. a waterproof panel 700 made of an iron plate or synthetic resin;
A waterproof panel clamp 270 made of several iron or aluminum alloy materials, which is a support fixture capable of mounting a profile for joining the connecting wing of the waterproof panel 700 and supporting the solar module; and
Several aluminum alloy profiles 220 for fastening the clamp clip 200 for fixing and supporting the module 100 on the waterproof panel clamp 270; and
Several middle T clamp clips 200 that hold the ends of two modules in a T-shape where the ends of the photovoltaic modules 100 are sequentially arranged on the top of the profile 220 so that the modules can be attached and detached from the upper part; and
End clamp clip 210 to hold the end of one module; and
Several photovoltaic modules 100, which are products fixed with a middle T clamp clip 200 on the profile 220 and finished with an aluminum frame in a solar cell of a certain size that is the matrix of photovoltaic power generation;
In case of rain, the inclined solar module 100 and the waterproof panel 700, the drip tray 900 of iron, aluminum or synthetic resin material that collects the falling water flowing to the lowest eaves and guides and discharges it to the ground; and
An external outlet overflower (930) installed in the drip tray (900) that leads to the outside in a line where the drip tray (900) does not overflow for external treatment of sudden excessive inflow of rainwater (930); and
A screen 920 of iron, aluminum or synthetic resin material of a structure that prevents the inflow of foreign matter such as fallen leaves from the upper part of the drip tray 900 and allows rainwater to pass naturally; and
Rainwater of the gutter 900 is installed in the sun gutter 950 to drain to the ground;
A waterproof slope-fixed photovoltaic power generation device that can effectively utilize waterproof spaces such as resting and parking under the structure as an integrated device configured with a feature that natural ventilation is formed in the space under the module 100 and the heat generated from the module is naturally ventilated According to claim 1,
For bonding the connection part where the waterproof panel 700 is connected, the left wing of the next waterproof panel 700 in which the right wing of the waterproof panel 700 is sequentially arranged is overlapped, and then a U-shaped left piece and an I-shaped post piece are stacked. After placing the waterproof panel 700 on the left and right of the overlapping part of the wings, the left and right pieces are tightened by engaging them with bolts.
A waterproof panel clamp 270, which is a support bracket made of several iron or aluminum alloy materials, in which the upper part of the left piece is made in a L shape so that a profile for supporting the solar module 100 can be placed; and
It is fixed on the top of the waterproof panel clamp (270), and to fix the clamp clip for supporting the module, a long groove is placed on the 4 sides to insert bolt heads and mountable ㅁ Several aluminum alloy profiles 220 made in the shape of a caption. ;class
The ends of the photovoltaic modules 100 are placed on the top of the profile 220 one after another to hold the ends of two modules in a T-shape that can be attached and detached from the upper part, and between the T-shaped aluminum alloy materials to fix them from the upper part. A waterproof inclined fixed type photovoltaic device comprising: several middle T clamp clips 200, which are steel support fixtures composed of a rectangular nut that can be filled in from the upper part and held between the grooves of the profile 220 It is an inclined fixed-type photovoltaic power generation device with a waterproof function that treats falling water between the modules as a drain pipe, and is fixed to the floor foundation anchor bolts to play a pivotal role in the structure.
As an upper structure for installing the photovoltaic module 100, a plurality of structure trusses 800 connected up and down on the upper portion of the plurality of structure pillars 810; and
A plurality of steel structures C-channel 600 that is configured at a right angle on the structure truss 800 to support the weight of the solar module 100 and the like and become a structural support connection;
In order to handle dripping water due to inflow of rainwater between modules on the structure C channel 600
a vertical gradient main drain pipe 300 and a left and right gradient sub drain pipe 350 disposed under the upper and lower left and right gaps of the module;
M-shaped module support 250 of steel plating or painting for fixing the drain pipe and fixing the module to the structure C channel 600 to mechanically fix the module;
A profile 220 made of an aluminum alloy material for fixing the general photovoltaic module 100 in the center by fixing it to the M-shaped module support 250;
Several middle T clamp clips 200 that hold the ends of two modules in a T-shape where the ends of the photovoltaic modules 100 are sequentially arranged on the top of the profile 220 so that the modules can be attached and detached from the upper part; and
End clamp clip 210 to hold the end of one module; and
A photovoltaic module 100, which is a product fixed with a middle T clamp clip 200 on the profile 220 and finished with an aluminum frame in a solar cell of a certain size that becomes the matrix of photovoltaic power generation;
In case of rain, the inclined solar module 100 and the waterproof panel 700, the drip tray 900 of iron, aluminum or synthetic resin material that collects the falling water flowing to the lowest eaves and guides and discharges it to the ground; and
An external outlet overflower (930) installed on the drip tray (900) that leads to the outside in a line where the drip tray (900) does not overflow for external treatment of sudden excessive rainwater inflow; and
A screen 920 of iron, aluminum or synthetic resin material of a structure that prevents the inflow of foreign matter such as fallen leaves from the upper part of the drip tray 900 and allows rainwater to pass naturally; and
The rainwater of the gutter 900 is installed in a sun gutter 950 to drain to the ground;
A waterproof slope-fixed photovoltaic power generation device that can effectively utilize waterproof spaces such as resting and parking under the structure as an integrated device configured with a feature that natural ventilation is formed in the space below the module 100 and the heat generated from the module is naturally ventilated 4. The method of claim 3,
The solar module 100 and several U-shaped plated or painted iron or synthetic resin sub-drain pipes (350); and
Rainwater from the left and right module gaps is a roof slope, several U-shaped plated or painted iron or synthetic resin materials, the vertical slope main drain pipe 300; and
M-shaped module support 250 of several plated or painted iron materials for fixing the drain pipe and mechanically fixing the module and fixing the structure C channel 600 for supporting the module; and
Several aluminum alloy profiles 220, which are fixed to the top of the M-shaped module support 250, and made in the shape of a long ㅁ caption with bolt heads on four sides to fix the clamp clip for supporting the module. ;class
The ends of the photovoltaic modules 100 are placed on the top of the profile 220 one after another to hold the ends of two modules in a T-shape that can be attached and detached from the upper part, and between the T-shaped aluminum alloy materials to fix them from the upper part. A waterproof inclined fixed type photovoltaic device comprising: several middle T clamp clips 200 composed of a rectangular-shaped nut that can be filled in from the upper part and held between the grooves of the profile 220
delete

Images