KR102323600B1 - Handrail structure with integrated solar power generation devivce - Google Patents

Abstract

The present invention relates to a handrail structure installed on a veranda or balcony of a building which comprises: a plurality of handrail vertical bars installed vertically at regular intervals on a slab; a handrail horizontal bar connecting the handrail vertical bars; and a hand guide bar installed on an upper part of the handrail vertical bars. The handrail horizontal bar is attached to a rear surface of the handrail vertical bars. The handrail horizontal bar is made of one member having the same length as the entire horizontal length of a handrail.

Description

Solar power generation device integrated railing structure {HANDRAIL STRUCTURE WITH INTEGRATED SOLAR POWER GENERATION DEVIVCE}

The present invention relates to a handrail structure in which a photovoltaic power generation device is integrally provided, and more specifically, the appearance of the handrail structure is not impaired, and the function of the handrail structure is improved by maintaining the vertical column of the handrail structure as it is to ensure structural stability. It relates to a handrail structure in which a photovoltaic power generation device is installed to create eco-friendly energy while preventing deterioration.

In order to protect the global environment by reducing carbon emissions, it is a recent global trend to reduce the proportion of fossil energy and expand new and renewable energy using solar power or wind power. Accordingly, according to the 5th Renewable Energy Basic Plan, Korea also aims to achieve 25.8% of renewable energy in electricity generation by 2035 and to significantly reduce greenhouse gas emissions. Various support is provided, such as giving incentives to the following small-scale private solar panels.

Accordingly, the construction of facilities for solar power generation in apartment buildings is gradually increasing. Recently, not only solar modules are installed in common spaces such as rooftops for common facilities, but also windows or windows for solar power generation in individual households. Examples of installing solar modules on the railings of verandas are gradually increasing.

However, solar cells installed by individual households are generally installed in brackets on the outer wall of the exclusive part or on the railing of the veranda, thereby being fixedly installed.

For example, Figure 1 shows a handrail-attached photovoltaic power generation module of Patent Registration No. 10-1215665, which attaches an upper fixed frame 40 and a lower fixed frame 60 to the railing, and the upper fixed frame and A structure in which each solar cell panel (P) is mounted on the lower fixed frame is made.

However, this structure of installing a frame on the railing constitutes an irregular protruding shape on the exterior of the apartment, which acts as a factor impairing the exterior of the apartment.

Therefore, by installing the photovoltaic module on the railing itself, the problem of appearance inhibition by the protruding photovoltaic module is also solved.

2 is disclosed in Patent Registration No. 10-2060779, and shows an example in which the solar cell module 23 is installed between the railing posts.

In Patent Registration No. 10-2060779, the solar cell module 23 is inserted inside the transparent tempered glass 21, 22, and the fixing members 49, 50, 51, 52) to fix the transparent tempered glass 21 and 22 with the fixing members 49, 50, 51 and 52 to have a structure in which a solar module is installed inside the handrail structure. Therefore, since there is no protrusion on the outer surface of the handrail, the problem caused by registration number 10-1215665 can be solved.

However, in registration number 10-2060779, since each solar cell module 23 is installed completely separated with the balustrade posts 44 and 45 interposed therebetween, the power line connecting each of these solar cell modules 23 may be exposed to the outside. can't help but As such, the power line exposed to the outside is a factor impairing the appearance, and there is a problem in that the power generation efficiency is lowered.

US 10-1215665 B1 US 10-2060779 B1

The present invention is to solve the above problems of the prior art, so as not to impair the structural stability of the handrail, and not to impair the appearance, such as not requiring a separate space or protruding structure for the installation of a solar module The purpose of the present invention is to provide a solar power generation device-integrated handrail structure that can prevent and maximize the efficiency of power generation by the solar module, and increase the ease of management and durability.

According to the most preferred embodiment of the present invention for solving the above problems, in a handrail structure installed on a veranda or balcony of a building, a plurality of handrail vertical bars installed vertically at regular intervals on a slab, and the handrail vertical bars are connected It consists of a handrail horizontal bar and a hand touch installed on the upper end of the handrail vertical bar, and the handrail horizontal bar is attached to the rear side of the handrail vertical bar and a solar panel is installed, the same length as the entire horizontal length of the handrail There is provided a solar power generation device-integrated handrail structure, characterized in that the branch is made of a single member.

At this time, the solar panel has a structure in which transparent glass is attached to both sides around the solar module and the solar module, and includes a light-transmitting part in which a solar module is not installed, and the railing horizontal bar is vertical to the railing. It consists of an upper bar attached to the upper part of the bar and a lower bar attached to the lower part of the handrail vertical bar. A lower space open to the upper side is formed by the lower piece and the lower outer side piece and the lower inner side piece, and the solar panel may be installed to be fixedly fitted into the upper space and the lower space. In addition, a water drain hole may be provided on the lower side.

In addition, each length of the upper inner side piece and the lower inner side piece is configured to be shorter than the respective lengths of the upper outer side piece and the lower outer side piece.

The solar panel is installed through a watertight dustproof pad inserted into the upper space and the lower space, and the watertight dustproof pad installed in the upper space is provided with a locking part and is caught on the lower end of the upper and outer side while being caught on the solar panel and the upper It consists of a long pad fitted between the outer side and a short pad that is formed in a straight line and is fitted between the solar panel and the upper inner side. A long pad fitted between the solar panel and the lower outer side while being caught by the long pad, a short pad that is formed in a straight line and fitted between the solar panel and the lower inner side, and a connection pad that integrates the lower end of the long pad and the short pad can be done

A junction box may be integrally installed on the upper end of the solar panel.

The present invention can secure the structural stability of the handrail by attaching a handrail horizontal bar having the same length as the entire horizontal length of the handrail to the rear side of the handrail vertical bar, thereby forming a plate-shaped frame structure while allowing the entire handrail to move integrally. In addition, when a solar panel is installed on a handrail horizontal bar attached to the rear side of the handrail vertical bar, the junction box and power line installed integrally with the solar tube panel are embedded, thereby preventing the appearance of the power lines from being impaired by exposure.

In addition, since the junction box is integrated and installed at the upper end of the solar panel, when the installation of the solar panel is completed, the installation of the junction box integrally installed on the upper part is also completed, so that a separate junction box installation work can be omitted. This has a reducing effect.

In addition, by composing the watertight dustproof pad with a long pad and a short pad, it is easy to insert the short pad after installing the solar panel when installing the solar panel, and prevents the long pad from being rolled up when installing the solar panel do. In addition, when vibrations occur due to typhoons or earthquakes, by absorbing the vibrations, the solar panel is prevented from being damaged, thereby improving durability.

1 is a perspective view and a detailed view of a state in which a solar module is installed on a railing according to the prior art.
Figure 2 is a front view of a state in which the solar module is installed on the railing according to the prior art.
3 is a front view, a rear view, and a side view of a handrail structure in which a photovoltaic device according to an embodiment of the present invention is installed.
4 is a perspective view and a cross-sectional view of the upper bar and the lower bar of the handrail horizontal bar of the present invention.
5 is a cross-sectional view showing a state in which the solar panel of the present invention is fixed by an upper bar and a lower bar via a watertight anti-vibration pad.
6 is a front view of each embodiment related to the arrangement of the solar module.
FIG. 7 is a cross-sectional view of a portion AA and a portion BB of FIG. 6 .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in the description of the present invention, in the case of obscuring or obscuring the technical idea of the present invention due to the detailed description of the known configuration, the description of the above known configuration will be omitted.

3 is a view showing a handrail structure in which a solar power generation device is installed according to an embodiment of the present invention, (a) is a front view looking at it from the outside of the building, (b) is a rear view looking at it from the inside of the building, , (c) is a plan view viewed from above, and (d) is a side view.

The handrail structure of the present invention is installed on a veranda or balcony of a building and is configured to generate electricity by sunlight, and as shown in FIG. 3 , a plurality of handrail vertical bars 100 and a handrail horizontal bar 200 and It is composed of a hand gesture 300, and has a structure in which a solar panel 400 for photovoltaic power generation is installed on the handrail horizontal bar 200.

The handrail vertical bar 100 is vertically installed at regular intervals on the slab S to safely support the load acting on the handrail GD. A hand rub 300 is installed at the upper end of the handrail vertical bar 100 .

The handrail horizontal bar 200 connects the handrail vertical bars 100 in the horizontal direction so that the handrail GD becomes a plate-shaped frame structure that behaves in an integrated manner, thereby improving the structural stability of the handrail GD. .

Unlike the conventional structure in which the handrail horizontal bar 200 of the present invention is composed of a plurality of pieces and each piece is independently joined to the inner space between each of the handrail vertical bars 100, the handrail vertical bar 100 ) has a structure that is attached to the back of the

The railing vertical bar 100 rear attachment structure of such a handrail horizontal bar 200 forms a plate-shaped frame structure that behaves in an integrated manner as in the conventional handrail structure, while allowing the handrail horizontal bar 200 to move in the longitudinal direction. It makes it possible to consist of one continuous single member having the same length as the entire horizontal length of the handrail (GD) without being cut off.

Therefore, even if the solar panel 400 installed on the handrail horizontal bar 200 is divided into a plurality as shown in (b) of Figure 3, the power lines drawn from each solar module 420 are located directly above the By embedding in the handrail horizontal bar 200, there is no deterioration in appearance due to the exposure of the power lines.

The handrail horizontal bar 200 of the present invention includes an upper bar 210 attached to an upper portion of the handrail vertical bar 100 and a lower bar 220 attached to a lower portion of the handrail vertical bar 100 .

4 shows an embodiment of the upper bar 210 and the lower bar 220 of the handrail horizontal bar 200, respectively.

The upper bar 210 includes an upper piece 211 and an upper outer side piece 212 and an upper inner side piece ( 213). The upper end of the solar panel 400 is fitted and fixed to the upper space 215 .

The lower bar 220 is configured symmetrically with the upper bar 210 . That is, the lower bar 220 is composed of a lower piece 221 and a lower outer side piece 222 and a lower inner side piece 223 that are vertically bent from both ends of the lower piece 221 to the upper side, so that the lower space in which the upper part is opened. (225) is formed. The lower end of the solar panel 400 is fitted and fixed to the lower space 225 .

It is preferable to provide a water drain hole 221a in the lower part 221 so that rainwater flowing through the front surface of the solar panel 400 during the rainy season is quickly discharged to the outside.

For reference, here, the upper outer side piece 212 and the lower outer side piece 222 mean a side piece located on the outdoor side, and the upper inner side piece 213 and the lower inner side piece 223 mean a side piece located on the indoor side.

The upper and lower outer pieces 222 and the upper and lower inner pieces 223 may further include contact pieces 214 and 224 bent by 180 degrees toward the upper and lower spaces 215 and 225 at each end thereof.

The contact pieces 214 and 224 increase the horizontal shear strength of the upper and lower outer pieces 212 and 222 and the upper and lower inner pieces 213 and 223 . At this time, by absorbing the vibration generated in the solar panel 400 due to typhoon or the like by configuring the contact pieces 214 and 224 to be elastic, structural stability can be further improved, and when the solar panel 400 is installed It is possible to facilitate the fitting operation of the short pad 232 , and to improve the adhesion of the watertight dustproof pad 230 to the solar panel 400 .

As described above, the solar panel 400 has the upper and lower ends fitted to the upper space 215 and the lower space 225, respectively. By configuring shorter than the respective lengths of the outer side 212 and the lower outer side piece 222 , it is possible to facilitate the installation of the solar panel 400 for the upper bar 210 and the lower bar 220 .

5 shows a structure in which a solar panel 400 is installed on the horizontal railing bar 200 described above, (a) is an installation structure in the upper bar 210, (b) is a lower bar 220 ) in the installation structure.

As shown in FIG. 5 , the solar panel 400 of the present invention is fixedly installed by the upper bar 210 and the lower bar 220 via the watertight anti-vibration pad 230 .

The watertight anti-vibration pad 230 has a function of watertight against rainwater flowing through the solar panel 400 and a function of close fixation to the handrail horizontal bar 200, and more importantly, when vibration occurs due to typhoons or earthquakes. By absorbing the solar panel 400 is prevented from being damaged to improve durability.

The upper portion of the solar panel 400 is inserted and installed in the upper space 215 via the watertight anti-vibration pad 230 as described above.

At this time, the watertight anti-vibration pad 230 installed in the upper space 215 is a long pad 231 fitted to the solar panel 400 and the upper outer side 212, as shown in FIG. and a short pad 232 sandwiched between the solar panel 400 and the upper inner side 213 .

The lower end of the long pad 231 is provided with a locking portion 231a to which the lower end of the upper and outer piece 212 is caught.

The insertion operation of the solar panel 400 into the upper space 215 is made after the long pad 231 is installed. Therefore, when the solar panel 400 is inserted into the upper space 215, there is room for the long pad 231 to be rolled in.

In order to prevent this, the lower end of the long pad 231 is provided with a locking portion 231a that is caught on the lower end of the upper and outer side pieces 212 . The engaging portion 231a may be configured in a shape provided with a fitting groove 231b into which the lower end of the upper and outer side piece 212 is inserted.

The end pad 232 installed on the upper bar 210 is fitted in a state in which the solar panel 400 is inserted into the upper space 215 . Therefore, the end pad 232 does not necessarily need to include the engaging portion 231a, and may be formed in a straight line.

The lower part of the solar panel 400 is also inserted and installed in the lower space 225 via the watertight dustproof pad 230 .

The watertight dustproof pad 230 installed in the lower space 225 may have the same structure as the watertight dustproof pad 230 installed in the upper space 215 . That is, the watertight anti-vibration pad 230 installed in the lower space 225 may also be composed of a separate long pad 231 and a short pad 232 . That is, as in the upper space 215 , the long pad 231 is provided with a locking portion 231a and is fitted between the solar panel 400 and the lower outer piece 222 while being caught on the upper end of the lower and outer piece 222 . and the end pad 232 is sandwiched between the solar panel 400 and the lower inner side 223 and may also be formed in a straight shape. In this case, the installation method of the long pad 231 and the short pad 232 is also not different from that in the upper space 215 .

However, in another embodiment of the present invention, a connection pad 233 connecting the lower ends of the long pad 231 and the short pad 232 is further provided. Accordingly, the watertight anti-vibration pad 230 installed in the lower space 225 has a U-shaped channel cross-section, as shown in FIG. 5( b ).

When the water-tight anti-vibration pad 230 having such a channel cross-sectional shape is used, the solar panel 400 is inserted and installed after all the water-tight anti-vibration pads 230 are installed in the lower space 225 .

The load of the solar panel 400 is supported by the setting block 240 installed in advance in the lower space 225 . At this time, the connection pad 233 is positioned between the setting block 240 and the solar panel 400 to absorb vibration. Of course, the setting block 240 itself may also have a vibration-proof function.

6 and 7 are shown with respect to the solar panel 400, FIG. 6 shows each embodiment related to the arrangement of the solar module 420, and FIG. 7 is a part AA and part BB of FIG. Each cross-section is shown.

The photovoltaic panel 400 includes a part in which the photovoltaic module 420 is installed and a part in which the photovoltaic module 420 is not installed. The part where the solar module 420 is not installed becomes the light-transmitting part 430 that allows a sufficient field of view to be secured when looking at the outside from the inside.

The arrangement structure of the solar module 420 and the light-transmitting part 430 may be formed in various forms. For example, as shown in (a) of FIG. 6, the light-transmitting part 430 may be positioned on the outer shell by allowing the solar module 420 to be disposed in the center, and as shown in (b) or (c), the sun By allowing the optical modules 420 to be horizontally or vertically arranged in parallel, the light-transmitting part 430 may be positioned therebetween.

This solar panel 400 is a cross-sectional view, as shown in FIG. made of structure However, the light-transmitting part 430 in which the solar module 420 is not installed can secure a field of view as shown in FIG. A bonding space 431 is formed between them.

The bonding space 431 is filled with a protective material 431a, such as an encapsulant, to prevent contaminants from penetrating from the outside. Therefore, the solar module 420 and the transparent glass 410 on both sides are integrated to prevent contamination from the outside, thereby preventing the solar module 420 from being damaged.

A junction box 440 for installing a bypass diode and the like is integrally installed on the upper end of the solar panel 400 configured as described above.

In the present invention, the solar panel 400 is installed, first, the solar panel 400 is raised so that the upper end is sufficiently inserted into the upper space 215, and then the lower end of the solar panel 400 is the lower space 225. This is done in such a way that it is laid down to be inserted into the Therefore, when the installation of the solar panel 400 is completed, the installation of the junction box 440 integrally installed on the upper part is completed, so that the separate junction box 440 installation work can be omitted, and the number of work processes is reduced accordingly. To promote the speed of construction.

In the above, the present invention has been described in detail with reference to specific embodiments, but the embodiments are merely examples for easy understanding of the present invention. It is obvious that it can be implemented with various modifications within. Accordingly, such modifications will be said to be within the scope of the present invention as described in the claims.

100 ; handrail vertical bar 200 ; handrail level bar
210; upper bar 211 ; upper part
212; upper and outer side 213 ; upper inner side
214, 224; close contact piece 215; upper space
220 ; lower bar 221 ; lower part
221a; drain hole 222 ; lower side
223; lower inner side 225 ; lower space
230 ; Watertight dustproof pad 231 ; long pad
231a; locking part 231b; fitting groove
232 ; short pad 233 ; connection pad
240 ; setting block 300 ; hand swipe
400 ; solar panel 410 ; clear glass
420; solar module 430 ; floodlight
431 ; junction space 440 ; junction box
GD; handrail S ; slab

Claims (9)

In the handrail structure installed on the veranda or balcony of a building,
A plurality of handrail vertical bars 100 installed vertically on the slab at regular intervals, a handrail horizontal bar 200 connecting the handrail vertical bars 100, and a hand gesture installed at the top of the handrail vertical bar 100 (300) is composed of,
The handrail horizontal bar 200 is attached to the rear surface of the handrail vertical bar 100 and the solar panel 400 is installed, and is made of a single member having the same length as the entire horizontal length of the handrail GD, The upper bar 210 attached to the upper portion of the handrail vertical bar 100 is configured to form an upper space 215 that is opened downward by the upper piece 211, the upper outer side piece 212, and the upper inner side piece 213. And, the lower bar 220 attached to the lower portion of the handrail vertical bar 100 is configured to form a lower space 225 opened upward by the lower piece 221 , the lower outer side piece 222 and the lower inner side piece 223 . ) is composed of
The photovoltaic panel 400 is made of a structure in which a photovoltaic module 420 and a transparent glass 410 are attached to both sides around the photovoltaic module 420,
The photovoltaic module 420 is not installed, so that a bonding space 431 is formed between the transparent glasses 410 and a light-transmitting part 430 is included to ensure a view,
The junction box 440 is integrally formed on the upper end of the photovoltaic panel 400, and the upper end of the photovoltaic panel 400 is fitted and fixed in the upper space 215, and the junction box 440 is integrally installed. and the lower end of the solar panel 400 is fitted and fixed to the lower space 225 in which the setting block 240 having a vibration-proof function is installed. delete delete According to claim 1,
Each length of the upper inner side piece 213 and the lower inner side piece 223 is configured to be shorter than the respective lengths of the upper outer side piece 212 and the lower outer side piece 222. According to claim 1,
The solar panel 400 is a solar power generation device-integrated handrail structure, characterized in that it is installed via a watertight dustproof pad 230 inserted into the upper space 215 and the lower space 225 . 6. The method of claim 5,
The watertight anti-vibration pad 230 installed in the upper space 215 is provided with a locking part 231a and is caught on the lower end of the upper and outer side 212 between the solar panel 400 and the upper and outer side 212 . A solar power generation device-integrated handrail structure comprising a long pad 231 fitted to and a short pad 232 that is formed in a straight line and is fitted between the solar panel 400 and the upper inner side 213 . 6. The method of claim 5,
The watertight anti-vibration pad 230 installed in the lower space 225 is provided with a locking portion 231a and is caught on the upper end of the lower outer side 222 between the solar panel 400 and the lower outer side 222 . The long pad 231 fitted to the, a short pad 232 which is configured in a straight shape and is fitted between the solar panel 400 and the lower inner side 223, and the long pad 231 and the short pad 232. Photovoltaic power generation device-integrated handrail structure, characterized in that consisting of a connection pad (233) that integrates the lower end. delete According to claim 1,
The lower part 221 has a water drain hole (221a), characterized in that the solar power generation device-integrated handrail structure.

Images