KR20130043378A - Roof type photovoltaic module equipment - Google Patents

Abstract

PURPOSE: A roof type sunlight module device is provided to include durability of a roof by minimizing weight and volume and to be installed in minimum human resources and an affordable price. CONSTITUTION: A roof type sunlight module device(100) comprises a fixing support unit(110), a main structure unit(120), a support frame(130), a solar panel(140), a waterproof cover(150), a clip(160), and a length control frame(170). A body is stably fixed to a roof(200) of a building, and a plurality of the main structure units is connected to an upper part of a protrusion unit. The support frame comprises a support unit supporting the solar panel and a connection unit connected to the main structure unit. A connection part of the protrusion unit and the main structure unit comprises the waterproof cover.

Description

Roof type photovoltaic module equipment

The present invention relates to a roof type solar module device, and more particularly, to a roof type solar module device for supporting a solar heat collecting plate for collecting solar light installed on the roof of a building.

In general, a photovoltaic module is a device that converts light energy into electrical energy using the properties of a semiconductor, and is mainly installed in the form of a plate on a slope such as a roof of a building or a house where solar radiation is high. The direct current (DC) produced by the AC to alternating current (AC) to supply the power required for the home.

However, since these solar modules are often constructed together with the building structure to be integrated with the roof, it is quite difficult and time-consuming to install the solar modules in the already completed building structure. The installation surface may be damaged. Therefore, when installing a photovoltaic module in an existing building, a problem such as a significant construction cost is generated.

Recently, in order to solve this problem, researches on the assembly for installing a photovoltaic module for simplifying the installation structure of the photovoltaic module so that the installation work can be performed more easily and conveniently, for example, registered in Korea Utility model No. 359176, "Roof installation structure of a solar panel using a fixing member" is known.

1 and 2, according to the roof installation structure of the solar panel (hereinafter referred to as the "photovoltaic module") using the fixing member, the vertical plate 12 perpendicular to the pedestal 11 A fixing member 10 having a horizontal plate 13 fixed to one side thereof is fixed to the roof by bolts 14 vertically penetrating the pedestal 11, and the horizontal plate 13 has a first steel frame. (21) is placed and fixed by a fixing bolt (15) which is screwed to the side of the vertical plate 12 through the first steel frame (21), the second steel frame on the upper portion of the first steel frame (21) (22) formed at right angles are combined in a lattice shape, the second frame steel frame 22 is mounted to the support frame 31 fixed to the lower portion of the photovoltaic module 30, the photovoltaic module 30 is a roof To be installed in.

The roof installation structure of a conventional photovoltaic module having such a configuration fixes the fixing member 10 on the roof and continuously couples the first and second shaped steel frames 21 and 22 to the fixing member 10. In order to fix the photovoltaic module 30 to the second type steel frames 22, not only can the photovoltaic module 30 be installed on the roof relatively easily, but also by the fixing member 10 without improving the roof. Installation of the photovoltaic module 30 can be completed quickly and simply.

However, the conventional photovoltaic module installation structure as described above can be expected to some extent in terms of reducing the cost and time required for the installation of the photovoltaic module, but the fixing member on the roof and the first Since many heavy and high volume supporting members such as the steel frame and the second steel frame follow the structure connected by bolts one by one, it adversely affects the durability of the roof and still requires a lot of cost, manpower and equipment. It does not save much time and money for installation work.

In particular, in the conventional photovoltaic module installation structure, since the fixing member and the first and second type steel frames are positioned between the roof and the photovoltaic module, excessive gaps occur between the roof and the photovoltaic module, causing damage due to strong winds. And there was a problem that is very vulnerable to safety accidents.

The present invention is to cover the fastening portion of the fixed structure of the building and the main structure fastened to the upper part with a waterproof cover to prevent water from penetrating to the fastening portion and using a light aluminum main structure and the support frame solar panels It is an object of the present invention to provide a roof-type solar module device to support the.

The present invention is a fixed support having a lower body is fixed to the roof of the building, and a plurality of protrusions extending in one direction of the body on the upper portion of the body; A plurality of main structures fastened to the upper portion of the protrusion; A support frame coupled to each of the main structures to connect between the main structures; A solar heat collecting plate supported by the support frame; A waterproof cover covering the protrusion of the protrusion and the main structure; And it provides a roof-type solar module device comprising a clip for fixing the support frame and the solar heat collecting plate.

Roof type solar module device according to the present invention may further include a length adjusting frame installed between the main frame and the support frame to adjust the angle of the solar heat collecting plate, the length adjusting frame is inserted into the main structure It may include a fastening portion inserted into the groove, the insertion portion disposed on the fastening portion and the fastening portion of the support frame is inserted.

In addition, the protruding portion of the roof-type solar module device according to the invention may have a square or trapezoidal shape, the support frame is T-shaped, the support for supporting the solar heat collecting plate from the bottom, and the main at the bottom of the support It may include a fastening portion which is fastened to the structure, the support portion may be disposed at both ends of the support frame, the main structure is bent in a shape corresponding to the shape of the projecting portion at the bottom, the fastening means is inserted in both ends outside And an insertion portion into which an insertion hole is formed, and an insertion portion into which a fastening portion of the support frame is inserted, and the bending portion may include support protrusions protruding at both ends to support the waterproof cover from below. The clip has a U-shape, the upper ends of which are bent to maintain a gap between the solar panels. It said two-way time and, I-shape for fixing the solar panel to the support frame, the top and the bottom can comprise a one-way clip for fixing the solar panel to the supporting frame are bent in opposite directions.

Roof type solar module device according to the present invention has the following effects.

First, since it does not include a high weight and large installation members except for the fixed support, it is possible to minimize the weight and volume, so as not to reduce the durability of the roof, it can be installed at a low cost and minimal manpower.

Second, cover the fastening part of the fixed support and the main structure with a waterproof cover, and apply rain-proof paint such as color caulking to the fastening part of the fixed support and the main structure to prevent the rainwater from seeping into the fastening part. Therefore, it is possible to prevent the fastening part from being damaged due to corrosion and to secure the airtightness of the fastening part, thereby preventing the fastening of the fastening means due to the repeated load.

Third, by installing a length adjusting frame between the main frame and the support frame can be adjusted to the angle of the solar collector plate arbitrarily to maximize the solar heat collection.

1 is a view showing an example of the installation structure of a conventional photovoltaic module.
FIG. 2 is an assembled perspective view of FIG. 2.
3 is a view showing a state in which a roof-type solar module device is installed according to an embodiment of the present invention.
4 to 11 are views showing the state in which the roof-type solar module device shown in Figure 3 is installed step by step.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, It should be understood that there may be variations.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment according to the present invention in detail, Figure 3 is a view showing a state in which the roof-type solar module device is installed according to an embodiment of the present invention, Figures 4 to 11 3 is a diagram illustrating a state in which the roof-type solar module device shown in FIG. 3 is installed step by step.

3 to 11, the roof type solar module device 100 according to the present invention includes a fixed support 110, a main structure 120, a support frame 130, a solar heat collecting plate 140, , Waterproof cover 150, and clip 160.

The fixed support 110 includes a body 112 and a protrusion 114. It is preferable that the body 112 is fixed to the roof 200 of the building, the fixing support 110 and the roof 200 is firmly fixed by a separate fixing means such as a bolt.

The upper part of the body 112 is provided with a protrusion 114 extending in one direction of the body 112, the protrusion 114 is provided with a plurality of the upper portion of the body 112. The protrusions 114 have a rectangular or trapezoidal shape, and a plurality of main structures 120 are fastened to the upper portions of the protrusions 114.

The fastening portion of the fixed support 110 and the main structure 120 is first waterproofed by applying a waterproof coating such as color caulking. The waterproof coating serves to prevent the loosening of the fastening means (not shown) by repeated loads to ensure the airtightness of the fastening portion of the fixed support 110 and the main structure 120.

The main structure 120 includes a bent part 121 and an insertion part 125. The bent portion 121 is provided below the main structure 120 and has a shape corresponding to the shape of the protrusion 114 provided on the fixed support 110.

Both ends of the bent portion 121 is supported to support the insertion hole 123 is inserted into the fastening means for fastening the main structure 120 to the protrusion 114 and the waterproof cover 150 to be described later from the bottom The protrusion 121a is formed.

A bolt is preferably used as the fastening means B inserted into the insertion hole 123 to fasten the main structure 120 to the protrusion 114, and the support protrusion 121a is the bent portion ( 121 is provided to protrude at both ends of the.

The insertion part 125 is provided on the main structure 120, and the fastening part 134 of the support frame 130 to be described later is inserted into the insertion part 125. The insertion part 125 has a U shape and fastening means B for fixing the fastening part 134 of the support frame 130 inserted into the insertion part 125 at both ends of the insertion part 125. The through hole 127 to be inserted is formed.

The support frame 130 inserted into the insertion unit 125 of each main structure 120 fastened to the protrusion 114 of the fixed support 110 serves to connect the main structure 120 spaced apart It serves to support the solar heat collecting plate 140 to be described later.

The support frame 130 has a T-shape, and includes a support part 132 and a fastening part 134. The support part 132 is disposed on both upper ends of the support frame 130 to support the solar heat collecting plate 140 from the bottom, and the fastening part 134 is located below the support part 132 and the main body. It is inserted into the insert 125 of the structure 120.

The fastening part 134 is formed with an insertion hole 134a into which the fastening means B for fastening the support frame 130 to the main structure 120 is inserted. As the fastening means B is inserted into the insertion hole 134a, the support frame 130 and the main structure 120 are firmly fixed.

The solar heat collecting plate 140 for collecting solar light is supported by the support frame 130 in a rectangular plate shape, and the solar heat collecting plate 140 is widely distributed in the market, and a detailed description thereof will be omitted. Shall be.

A waterproof cover 150 is provided at a fastening portion of the protrusion 114 of the fixed support 110 and the main structure 120. The waterproof cover 150 is attached to the bent portion 121 so as to be located on the upper side of the support protrusion 121a protruding from both ends of the bent portion 121 of the main structure 120, such as rain water to the fastening portion. It prevents the inflow of the secondary to prevent damage to the fastening part. Bending parts 152 are formed at both ends of the waterproof cover 150, and rainwater and the like are prevented from flowing into the fastening part by the bent parts 152 and the support protrusion 121a.

The support frame 130 and the solar heat collecting plate 140 are fixed using a clip 160, and the clip 160 includes a bidirectional clip 162 and a unidirectional clip 164.

The bi-directional clip 162 is bent in a U-shaped upper end is provided between the solar heat collecting plate 140 to maintain the interval between the solar heat collecting plate 140 and the solar light on the support frame 130 The heat collecting plate 140 is fixed, and the unidirectional clip 164 is bent in the opposite direction to each other in an I-shape to fix the solar heat collecting plate 140 to the support frame 130.

A fastening hole 162a through which a fastening means B such as a bolt is inserted is formed at the center of the bidirectional clip 162, and a fastening hole into which the fastening means B is inserted in the lower bent portion of the unidirectional clip 164, respectively. 164a is formed to firmly fix the solar heat collecting plate 140 and the support frame 130 to the bidirectional clip 162, the unidirectional clip 164, and the fastening means B.

Angle adjustment of the solar heat collecting plate 140 is made by the length adjusting frame 170, the length adjusting frame 170 is composed of a fastening portion 172 and the insertion portion 174.

The fastening part 172 is inserted into the insertion part 125 of the main structure 120 fastened to the upper part of the protrusion 114 of the fixed support 110, and the insertion part 174 is the fastening part 172. It is disposed on the upper portion of the insertion portion 174, the fastening portion 134 of the support frame 130 is inserted, the fastening portion 172 and the insertion portion 174 is fastening means (B), etc. The through holes 172a and 174a to be inserted are formed.

When the roof-type solar module device 100 according to the present invention is described step by step the process of being installed on the roof 200 of the building as follows.

3 to 6, the fixing support 110 is fixed to a roof 200 of the building in which the roof type solar module device 100 is installed by a separate fixing means. A plurality of main structures 120 are fastened by the fastening means B to the rectangular or trapezoidal protrusions 114 extending in one direction on top of the fixed support 110. As the number of the main structures 120 increases, the fixing force and stability double.

 The fastening portion of the protrusion 114 and the main structure 120 is covered by a waterproof cover 150. Rainwater and the like flow into the coupling part of the protrusion 114 and the main structure 120 by the bent part 152 formed on both ends of the waterproof cover 150 and the support protrusion 121a of the main structure 120. Is prevented.

Referring to FIG. 7, the length adjusting frame 170 is inserted into the main structure 120 mounted at the rear end of the protrusion 114, and the main structure 120 and the length adjusting frame 170 are fastening means ( It is fastened and fixed by B).

8 and 10, the length adjustment frame 170 fastened to the main structure 120 mounted at the front end of the protrusion 114 and the main structure 120 mounted at the rear end of the protrusion 114. The support frame 130 is inserted, and the main structure 120, the length adjusting frame 170 and the support frame 130 are fastened and fixed by a fastening means B such as a bolt and the like (N). .

Referring to FIG. 11, the main structure 120, the length adjusting frame 170, and the support frame 130 are fastened and fixed to the plurality of protruding portions 114 protruding from the upper portion of the fixed support 110. When the solar heat collecting plate 140 is placed between the support frames 130, the support frame 130 and the solar heat collecting plate 140 are fixed by the bidirectional clip 162 and the unidirectional clip 164. do.

As the number of the main structure 120, the length adjusting frame 170 and the support frame 130 is fastened to the plurality of protrusions 114 protruding from the upper portion of the fixed support 110, the solar heat collecting plate 140 is increased. It can be mounted firmly and can be firmly supported.

Therefore, since it does not include a heavy and large installation member except for the fixed support, it is possible to minimize the weight and volume, so as not to reduce the durability of the roof, it can be installed with low cost and minimal manpower, Cover the fastening part of the fixed support and the main structure with a waterproof cover, and apply a waterproofing coating such as color caulking to the fastening part of the fixed support and the main structure to prevent rain water from penetrating into the fastening part in two times to prevent corrosion. It is possible to prevent the fastening part from being damaged, to secure the airtightness of the fastening part, and to prevent the fastening of the fastening means due to the repetitive load, and to install the length adjusting frame between the main frame and the support frame. The angle can be arbitrarily adjusted to maximize solar heat collection.

While the present invention has been described with reference to exemplary embodiments, 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 appended claims. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: roof type solar module device 110: fixed support
120: main structure 130: support frame
140: solar heat collecting plate 150: waterproof cover
160: clip 170: length adjustment frame
200: roof

Claims (9)

A fixed support having a lower portion of the body fixed to the roof of the building and a plurality of protrusions extending from the upper portion of the body in one direction;
A plurality of main structures fastened to the upper portion of the protrusion;
A support frame coupled to each of the main structures to connect between the main structures;
A solar heat collecting plate supported by the support frame;
A waterproof cover covering the protrusion of the protrusion and the main structure;
Roof type solar module device comprising a clip for fixing the support frame and the solar heat collecting plate. The method according to claim 1,
Roof type solar module device is installed between the main frame and the support frame further comprises a length adjusting frame for adjusting the angle of the solar heat collecting plate.
The method according to claim 2,
The length adjustment frame,
A fastening part inserted into an insertion groove of the main structure;
A roof type solar module device disposed on the fastening part and including an insertion part into which the fastening part of the support frame is inserted.
The method according to any one of claims 1 to 3,
Roof-shaped photovoltaic module device of the protrusion is rectangular or trapezoidal shape.
The method according to any one of claims 1 to 3,
The support frame,
In T shape,
Roof-type photovoltaic module device including a support for supporting the solar heat collecting plate from the bottom, and a fastening portion that is fastened to the main structure under the support.
The method according to claim 5,
The support unit is a roof-type solar module device disposed on both ends of the support frame.
The method according to any one of claims 1 to 3,
The main structure,
A bent portion bent in a shape corresponding to the shape of the protrusion at a lower portion thereof, and an insertion hole into which a fastening means is inserted at both ends thereof;
Roof type solar module device including an insertion portion is inserted into the fastening portion of the support frame on the top.
The method of claim 7,
The bending portion
Roof-type photovoltaic module device including support protrusions protruding at both ends to support the waterproof cover from the bottom.
The method according to any one of claims 1 to 3,
The clip,
A bi-directional clip having a U-shape, the upper ends of which are bent to maintain a gap between the solar heat collecting plates and fixing the solar heat collecting plate to the support frame;
Roof-shaped photovoltaic module device having an I-shape, the upper and lower portions are bent in opposite directions to secure the solar heat collecting plate to the support frame.

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