KR101926655B1 - Roof Solar-Cell System - Google Patents

Abstract

The present invention relates to a fixating apparatus for installing a photovoltaic power generation apparatus, which includes the photovoltaic power generation apparatus, by using a roof of a building, a rooftop of a building and an idle space and, particularly, to a roof installation type photovoltaic power generation apparatus fixating apparatus which can prevent damage by wind pressure or the like as well as enhance convenience according to coupling and decoupling of the photovoltaic power generation apparatus. According to the present invention, the roof installation type photovoltaic power generation apparatus fixating apparatus comprises: a light weight structure having a support part configured by coupling a horizontal support and a vertical support to a side part and one side part of a joint put, respectively, on a floor surface of an idle space including a rooftop or a roof of a building and having an inclined part configured by coupling a module support with predetermined inclination angle to an upper part of the joint; and the photovoltaic power generation apparatus installed in the direction corresponding to an inclined surface of the module support through a plurality of coupling units coupled to an upper side of the light weight structure to be spaced from the same at a regular interval.

Description

Solar module installation structure {Roof Solar-Cell System}

The present invention relates to a fixing device necessary for installing a solar power generation solar module by utilizing a building roof or an idle space. In particular, it relates not only to improving the convenience of installation and separation of a solar power generation device, To a mounting structure including a fixing device for a roof-mounting solar module that can prevent damage by a roof module.

Solar power generation system is a device that turns solar energy into electric energy, and it is becoming an alternative energy source because it has advantages such as no pollution, noise free, and infinite supply energy.

Recently, it has been attracting attention to install small and medium capacity photovoltaic structures in places that use idle space such as rooftops and roofs of existing buildings. However, when the photovoltaic power generation structure is installed on the roof of general buildings, And the external appearance of the city is not good, which can adversely affect the safety of the building structure.

In addition, due to the weight, the work load and the number of work processes are increased, and the installation cost is increased. In addition, although the solar module installed on the roof of the present building is installed after the horizontal and vertical sections are assembled in a lattice shape, it is difficult to install the solar module with a narrow working space.

The present invention is intended to provide a roof-mounted photovoltaic device fixing device capable of improving convenience in installation and separation of a photovoltaic power generation device and preventing damage due to external force such as wind pressure.

A plurality of vertical supports supported on the roof of the building, and a plurality of joints respectively coupled to both ends of the vertical support, wherein the plurality of joints are fixed to the upper joining portion and positioned on the upper side of the vertical support, A lightweight structure composed of a plurality of lateral supports fixed to the side coupling portions of the joints and positioned in a vertical direction with respect to the vertical supports; And a solar power generator mounted in a direction corresponding to an inclined surface of the module support through a plurality of fastening means fastened to the upper side of the lightweight structure.

In the roof-mounted solar cell apparatus fixing apparatus of the present invention,

A plurality of vertical supports 10 disposed in an idle space including a building roof or a roof, a plurality of joints 30 respectively coupled to both ends of the vertical support 10, fixed to upper joints of the joints 30, Each of the module supports 20 being positioned on the upper side of the vertical support 10 and having an inclined surface formed on the upper side of the vertical support 10 and a module support 20 fixed to the side coupling portion of the joint 30, A lightweight structure 100 composed of respective lateral supports 50 positioned at a predetermined distance from each other,

The plurality of solar power generation apparatuses 200 installed in the direction corresponding to the inclined surface of the module support 30 through a plurality of fastening means 60 fastened to the upper side of the light weight structure 100 at regular intervals Since the solar power generator is fixed by the lightweight structure, it is possible to utilize an idle space such as a roof or a roof of a building without requiring additional expenses such as site purchase cost and civil works cost, which were required for solar power generation.

In addition, the present invention includes a means for adjusting the length of the lateral support 50 in the joint 30, and the means for adjusting the length of the lateral support 50,

A first side coupling portion 35a and a second side coupling portion 35b which are arranged in parallel back and forth to be joined to each other to form a side coupling fastener and each having an inner hole c1,

A vertical support 10 is connected to the first side coupling portion 35a at the center,

A module support (20) is connected to the second side coupling portion (35b)

A front side coupling portion configured to make the vertical support 10 and the module support 20 form an acute angle a2,

And a rear side coupling portion configured such that the vertical support (10) and the module support (20) form a right angle (a1)

The horizontal support 50 is provided with a left lateral support 50a and a right lateral support 50b so that the left lateral support 50a and the right lateral support 50b ,

One of which is inserted from either one of the right and left sides of the first side coupling portion 35a and is provided so as to be adjustable in length by a sliding method,

And the other is inserted from one of the right and left sides of the second side coupling portion 35b and is provided to be adjusted in length by a sliding method.

Meanwhile, the side coupling decoupling of the first side coupling portion 35a and the second side coupling portion 35b may be formed by attaching both of them. Or the first side coupling portion 35a and the second side coupling portion 35b may be bundled and bound together by a binding belt 35f provided in a band / ring-shaped belt.

The module support 20 comprises an inclined part 21 disposed on the top and a vertical part 22 disposed on the rear side and the rear end of the inclined part 21 and the top of the vertical part 22 (Rotated) by the hinge coupling 20a.

The lower end of the vertical part 22 is inserted into the upper joint part 32 of the joint 30 so as to be coupled thereto. After coupling, fasten with screws / bolts.

According to the present invention, since the photovoltaic device is fixed by the lightweight structure in which the horizontal support, the vertical support and the module support are combined, the photovoltaic power generation device can be installed in a simple and simple manner without the need for additional expenses such as site purchase cost and civil engineering cost, It is economical to utilize the idle space on the city center building such as roofs, roofs, resting places of public and public buildings, and canopies of gas stations.

The overall height of the photovoltaic device is lowered by the lightweight structure, so that damage due to external load such as wind pressure is prevented and durability is improved.

The convenience of disassembling and assembling the lightweight structure is increased, so that the work load and the work process due to the installation and repair of the photovoltaic power generation device are reduced, and the lightweight structure can be partly repaired.

Since the combined structure of lightweight structures can be simplified, it is possible to save expenses including transportation costs and labor costs, thereby reducing the financial burden on individual or corporations, thereby contributing to the development of the energy industry.

1 is a perspective view illustrating an installation state of the solar power generation device.
2 is a front sectional view showing the state of installation of the photovoltaic device.
3 is an exploded perspective view of a fixing mechanism of the photovoltaic device.
4 is an assembled perspective view of a fixing mechanism of the photovoltaic device.
5 is a partially enlarged view illustrating a fixed state of the photovoltaic device.
Hereinafter, an advanced embodiment of the present invention will be described.
FIG. 6 is a perspective view of a joint on the rear side of the upper diagram, and FIG. 6 is a perspective view of a joint on the front side of the joint.
FIG. 7 is an exemplary view showing a process of fitting a lateral support to a side coupling portion of a joint, and FIG. 7 is an exemplary view of adjusting a length of a lateral support.
Fig. 8 shows another embodiment of the present invention in a perspective view, in which the left side shows the state before the binding, and the right side shows the state after the binding.
9 is a side view of the assembly of the whole part, and a part thereof is seen through.

Generally, the solar module installation structure is constituted by a support portion formed by combining a lateral support and a vertical support on a side portion and a side portion of a joint placed on a bottom surface of an idle space including a roof of a building or a roof, A lightweight structure in which an inclined portion is formed by joining a module support having an inclination angle of +/- 5 DEG,

Each of the solar power generating devices mounted in a direction corresponding to the inclined surface of the module support via a plurality of fastening means fastened at a predetermined interval to the upper side of the lightweight structure, / RTI >

FIG. 1 is a perspective view showing a state in which a solar photovoltaic device according to the present invention is installed, FIG. 2 is a front sectional view showing a state in which a solar photovoltaic device according to the present invention is installed, 4 is an assembled perspective view illustrating a fixing mechanism of the solar cell apparatus according to the present invention, and FIG. 5 is a perspective view showing a fixing state of the solar cell apparatus according to the present invention Fig.

More specifically,

A plurality of vertical supports 10 disposed in an idle space including a building roof or a roof, a plurality of joints 30 respectively coupled to both ends of the vertical support 10, fixed to upper joints of the joints 30, A module support 20 which is positioned on the upper side of the vertical support 10 and forms an inclined surface on the upper side of the vertical support 10 and a vertical support 10 which is coupled to the lateral support portion of the joint 30, A lightweight structure 100 comprised of a plurality of lateral supports 50 positioned at a predetermined distance from each other; And a solar power generator 200 mounted in a direction corresponding to the inclined surface of the module support 30 via a plurality of fastening means 60 fastened to the upper side of the lightweight structure 100.

The fixing apparatus according to the present invention is for use as a photovoltaic power generating place in an idle space on a city building such as a roof, a roof, a resting place and a canopy of a gas station in general and public buildings, and includes a lightweight structure 100 fixed to an idle space, And a photovoltaic device 200 sloped and fixed to the upper side of the lightweight structure 100.

The lightweight structure 100 is a triangular columnar structure fixed to the outdoors such as a building roof. The lightweight structure 100 includes a plurality of vertical supports 10 mounted on the installation site in the width direction, And a plurality of lateral supports 50 fixed to the side of the vertical support 10 through the joint 30 in the longitudinal direction.

It is preferable that the vertical support 10, the module support 20, and the lateral support 50 are formed in the form of a straight bar as possible. Particularly, the module support 20 has a right- .

The joint 30 interconnects the vertical support 10, the lateral support 50 and the module support 20 and sets the angle of the solar power generator 200, A lateral coupling portion to which the lateral supports 50 are connected is formed on both sides of the lower coupling portion and an upper coupling portion to which the module support 20 is connected is formed on an upper side thereof. At this time, the joint 30 preferably uses a four-way joint in the remaining cases except for the joints positioned at both ends of the lightweight structure 100. The lateral joints 30, And a top engaging portion is formed at an upper portion of the module supporting portion so that one end of the module support 20 is connected to the upper portion of the module supporting portion in an inclined direction at an angle.

The photovoltaic device 200 is mounted on the upper surface of the lightweight structure 100 in an oblique direction and converts solar energy into electric energy. The upper surface of the lightweight structure 100, preferably, 20 through a plurality of fastening means 60 fastened at regular intervals.

The lightweight structure 100 is installed on a roof of a building or a roof or a canopy of a gas station, and then the solar power generator 200 is mounted on the roof of the building, and the module support 20 of the lightweight structure 100, Since the solar cell 200 is inclined at an inclination angle of 30 ± 5 °, the photovoltaic device 200 is directed to the south direction, thereby providing an optimal environment for receiving sunlight easily. Since the lightweight structure 100 is constituted by the joining of the supports 10, 20 and 50, the area is determined by adjusting the spacing of the supports 10, 20 and 50 regardless of the area of the roof of the building, (200) can be maximally installed.

In addition, during the manufacturing process of the lightweight structure 100, the surfaces of all the components 10, 20, 30, and 50 are galvanized to prevent corrosion.

Since the vertical support 10 and the module support 20 are in a state where the portions that meet in the perpendicular direction and the diagonal direction are engaged with the joint 30, the inner diameter of the joint 30 is smaller than that of the vertical support 10 and the module support 20 It is preferable that the vertical support 10 and the module support 20 are wrapped around the vertical support 10.

It is preferable to insert the vertical / horizontal supports 10 and 50 and the module support 20 into the joint part of the joint 30 and fasten them with bolts and nuts. Particularly, the bolts and nuts are molded into stainless steel Let's use it.

5, when the galvanized fastening means 60 is screwed onto the lightweight structure 100 and the solar power generator 200 is screwed on the fastening means 60, the solar power generator 200 is installed A series of work processes are completed. As the fastening means 60, C-shaped steel is particularly used.

Hereinafter, an advanced embodiment of the present invention will be described in more detail.

In order to utilize idle space such as rooftop / roof more efficiently and to adapt to various sizes and sizes of space, a means for adjusting the length of the horizontal supports in lightweight structures is needed.

6, the longitudinal support 10, the lateral support 50 and the module support 20 are connected to each other, and the length of the lateral support 50 is set such that the shape of the building roof is complex or narrow A plurality of side coupling portions 35 for connecting the lateral supports 50 so as to be adjusted to be long or short depending on the surrounding environment.

As shown in FIGS. 6 and 8, the side coupling portion 35 is divided into a first side coupling portion 35a and a second side coupling portion 35b. More specifically, the first side coupling portion 35a and the second side coupling portion 35b are disposed so as to be in parallel (parallel) contact with each other, and are then coupled to each other such that the mutual bodies are in close contact with each other. This is referred to as "side-by-side bonding."

In the case of Fig. 6, in the case of performing the side engaging and disengaging operation, it is an example of attaching (b1) by fixing by welding or screwing (bolt). So that the bodies are attached and arranged so that the bodies can not move with respect to each other

In the case of Fig. 8, a binding belt 35f in the form of a belt provided with a metal member having a strength for binding both members or a predetermined flexible synthetic resin member is provided, The first side coupling portion 35a and the second side coupling portion 35b are inserted into the coupling belt 35f to be tightly tightened. Therefore, the binding belt 35f takes a form such that it has an inner periphery corresponding to the outer periphery arranged by bringing the first side engaging portion 35a and the second side engaging portion 35b into contact with each other. In the example of Fig. 8, the binding belt 35f takes the form of a caterpillar and is shown only on one side of the right and left, but it is preferable that the binding belt 35f is provided on both the left and right sides of the side coupling portion. As shown in the right-hand side of Fig. 8, the binding belt 35f of this type can give a certain angle of inclination a3 by forcing the binding belt 35f to slip, .

In the case where the binding belt 35f is made of a flexible synthetic resin or the like, it is easy to store a large number of water in a narrow space, and a work for binding both the first side coupling portion 35a and the second side coupling portion 35b If a deformed shape has occurred, it can adapt quickly to adapt it accordingly and it is easy to work quickly.

At this time, a vertical support 10 is connected to the center of the first side coupling part 35a, and a module support 20 is connected to the middle of the second side coupling part 35b.

7, the left side (or right side) hole c1 of the first side coupling portion 35a, which is placed in front of the side coupling portion 35 of the joint 30, The lateral support 50a is inserted and fixed while the second side engaging portion 35b of the rear side of the side engaging portion 35 of the joint 30 has the right side (or left) lateral support 50b is engaged (fixed) with the right side (left side) c1.

The structure of the lateral support 50 coupled to the side coupling portion 35 through the above-described method is provided so as to be adjustable in length as shown in the bottom view of FIG. 7. In the figure, from the left side of the first side coupling portion 35a The outer lateral surface of the inserted lateral support 50a is fixed by being in contact with the inner circumferential surface of the inner hole c1 of the first side engaging portion 35a and is slid by a predetermined distance so as to be aligned in the longitudinal direction, ).

Likewise, the right lateral support 50b, which is fitted and coupled from the right side of the second side coupling portion 35b in the opposite direction, is engaged with the second side coupling portion 35b and then coupled to the inner peripheral surface of the second side coupling portion 35b It is possible to adjust the length independently (separately) by moving in the longitudinal direction (m2). In the drawing, an example is shown in which the length is reduced to the extent that the right lateral support 50b is fitted from the right side of the second side engaging portion 35b and exposed to the outside of the left side entrance.

By using such a method, the left lateral support 50a and the right lateral support 50b can freely move independently of each other without being interfered with each other, thereby maximizing the environment of the workplace in which the solar power facility is installed It is possible to maximize the method of adjusting the length by adapting it. On the other hand, after the necessary length is adjusted, the side coupling portion 35 is formed with a screw hole in advance to tighten the screw d1 in order to firmly fix the side fitting portion. That is, it can be fixed by a method such as tightening a horizontal support with a screw, refer to Fig.

3, the joint 30 including the side coupling portion includes a joint 30 on the front side 1 which is engaged with the inclined portion on the front side of the module support 20, And a joint 30 of the rear side 2 which meets the rear vertical portion. In other words, it can be seen that they are provided in two.

The rear side 2 of the module support 20 is connected to the first lateral side coupling portion 35a and the second side coupling portion 35b by a side coupling fastener, Or the inclination of the inclined part 21 of the front side 1 of the module support 20 corresponds to the inclined angle shape,

In the example of FIG. 6 in which the side coupling pinions of the first side coupling portion 35a and the second side coupling portion 35b are fixed (provided) by welding / bolt,

As shown in the upper part of FIG. 6, the lower support part 31 to which the vertical support 10 is to be inserted and the upper support part 32 to which the module support 20 is to be inserted, May be provided to the joint 30 of the rear side 2. 6, when the lower coupling portion 31 to which the vertical support 10 is connected and the upper coupling portion 32 to which the module support 20 is to be connected are attached to each other so that the mutual angle of the upper coupling portion 32 is an acute angle a2, Can be provided to the joint (30) of the side (1).

The side coupling deadbolts are configured so as to wrap the first side coupling portion 35a and the second side coupling portion 35b with the binding belt 35f so as to slip and slip to form a flow angle a3 In the example of FIG. 8 (provided)

There is an advantage that the predetermined setting angle can be forcibly changed / adjusted according to the situation of the field after the quick setting with only a rough setting angle without fixing the setting angle from the beginning. In this case, since the lightweight structure 100 is provided in a triangular shape, a predetermined triangular shape is maintained after all the lightweight structures 100 are assembled.

9, the module support 20 includes an inclined part 21 for mounting the solar power generator 200 and a vertical part 22 to be connected to the joint 30, and the inclined part 21 and a hinge joint 20a which can be bent by connecting the vertical part 22 with a hinge / joint can be added. The upper end of the vertical part 22 is hinged to the rear end of the inclined part 21 and the lower end of the vertical part 22 is connected to the upper end of the joint 30, (Fitted) and fastened to the base portion 32 and fixed with screws (pn) so as not to move (slidably) after the insertion.

The inclination of the inclined part 21 to be laid by the solar power generator 200 on the module support 20 depends on the inclination angle of the joint 30 on the front side 1, And, if necessary, also in the case of the rear side 2, a method of adjusting the flow angle a3 may be used. As a result, the inclination of the inclined part 21 causes a variation in the vertical height of the rear end of the module support 20, and the lower end of the vertical part 22 corresponds to the variation, 32 in a state in which the height a4 is aligned. At this time, the inclined part 21 and the vertical part 22 are accompanied by minute angle changes, which are configured to adapt / correspond through the hinge joint 20a provided so as to be able to refract. With the above-described configuration, it is possible to arbitrarily adjust the inclination (inclination) of the inclined part 21 on which the solar power generator 200 is to be mounted, which is required according to the situation of the site, the season, It is possible to eliminate or prevent the problem of replacement or re-construction of the entire module support 20 due to tilting or incompatibility with the situation in the field.

10: vertical support 20: module support 30: joint
50: lateral support 60: fastening means
100: Lightweight structure 200: Solar power generation system

Claims (1)

Vertical support; Lateral support; Module support; And a joint,
Wherein the joint includes a lower coupling portion for coupling the vertical support and an upper coupling portion for coupling the module support, wherein a plurality of the front and rear solar modules are provided,
The joint (30)
And includes a first side engaging portion 35a and a second side engaging portion 35b each having an inner hole c1 arranged in parallel back and forth and the first side engaging portion 35a and the second side engaging portion 35b, (35b) is wrapped around a binding belt (35f) in the form of a ring to form a side coupling pin,
The vertical support is connected to the middle lower coupling portion of the first side coupling portion 35a and the module support is connected to the middle upper coupling portion of the second side coupling portion 35b,
A lateral side coupling portion is formed on the front side so that the vertical support and the module support form an acute angle a2 and a rear side coupling portion is formed so that the vertical support and the module support are at right angles a1,
The lateral supports are provided as a left lateral support 50a and a right lateral support 50b,
One of the left lateral support 50a and the right lateral support 50b is inserted from the left side of the first side coupling portion 35a and is provided so as to be adjusted in length by a sliding method, Is inserted from the right side of the second side coupling portion 35b and is provided so as to be adjustable in length by a sliding method,
The module support comprises an inclined part (21) arranged on the top and a vertical part (22) arranged on the rear side,
The rear end of the inclined part 21 and the upper end of the vertical part 22 are bent so as to be refracted by the hinge connection 20a and the lower end of the vertical part 22 is fitted to the upper engaging part, Which is coupled to be vertically adjustable in height,
Wherein the solar cell module is mounted on the solar cell module.

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