KR101832470B1 - Roof system with solar structure - Google Patents

Abstract

The present invention discloses a solar integrated roof system, which improves robustness by having a structure in which a solar module is directly supported by a roof steel frame, and which has an optimal supporting structure by accurately designing load of the solar module.

Description

Roof system with solar structure [0002]

The present invention relates to a solar integrated roof system, and more particularly, to a roof structure for a solar-powered integrated roof system, in which a solar module is directly supported on a roof frame to improve rigidity, To a solar integrated roof system.

Recently, photovoltaic modules have been widely used as an alternative means of fossil energy due to depletion of fossil fuels and serious environmental pollution resulting therefrom, pollution-free, noiseless and infinite supply energy. However, the power production efficiency of such a photovoltaic module is proportional to the area of the light collecting plate to be used, so that it is installed on the roof of a building such as a warehouse or a factory because the economical efficiency of installation on a general land is greatly reduced.

An example of a solar module installation structure is disclosed in Korean Patent No. 10-1391245, No. 10-1493967, No. 10-1444818, and the like.

In the conventional solar module installation structure disclosed in the above patents, a sandwich panel is installed on a roof of a building for heat insulation, and a solar module is installed using a separate installation structure directly on the upper surface of the sandwich panel.

However, if a heavier and heavier photovoltaic module is installed directly on the upper surface of the sandwich panel, there is a problem that the support force is weak. That is, since the sandwich panel has a shape in which the styrofoam is filled between the thin upper and lower plates, the upper and lower plates of the sandwich panel are warped or twisted after the heavy solar module is installed, There is a problem.

In addition, since the load of the solar module is distributed to the sandwich panel when the solar module is directly installed on the upper surface of the sandwich panel, the accurate load of the solar module that can be supported by the sandwich panel can not be measured. There is a problem that it is difficult to judge to what degree the solar module to be installed is optimal.

1) Korean Patent No. 10-1391245 (Registered on Apr. 25, 2014), Title of the invention: "Support structure for installing a solar panel on a roof" 2) Korean Registered Patent No. 10-1493967 (Registered on Feb. 10, 2015), entitled "Apparatus for installing a photovoltaic module on a building roof made of sandwich panels" 3) Korean Registered Patent No. 10-1444818 (Registered on Sep. 19, 2014), entitled "Solar Module Stands for Factory Roofs" 4) Korean Patent No. 10-1562909 (Registered on Oct. 19, 2015), entitled "Mounting Bracket for Solar Module"

The present invention has been made in order to solve the above problems, and it is an object of the present invention to improve the structure and structure to improve the supporting force and rigidity by directly supporting the solar module on the roof steel frame, So that the roof structure can be designed to have a support structure of the solar integrated roof system.

The above-described object is achieved by a roof structure comprising: a plurality of roof steel bars installed across a roof of a building; A connection support body fixed on the roof steel frame and vertically installed; An upper locking part formed to be bent in an outward direction at an upper end of the vertical wall part and a lower locking part bent in an outward direction from a lower end of the vertical wall part, A heat insulating panel fixing member; A heat insulating panel which is fitted between the upper and lower engaging portions of the heat insulating panel fixing member and horizontally installed on both sides with respect to the connection supporting body; A roof plate supporting member fixedly installed upwardly from a part of the upper surface of the heat insulating panel to function as a space; And is horizontally installed as a heat insulating panel and supported symmetrically on both sides with respect to the connecting support body, and the upper end of the connecting support body is upwardly A roof plate having a bent seating portion formed with a bent portion and an upwardly bent portion formed at an opposite end thereof and having a bent seating portion assembled to surround an upper end of the roof plate supporting member; And a lower space formed between the roof plate and the roof plate to block penetration of rainwater and to prevent the penetration of rainwater. A first roof cover installed in such a manner that the downward locking portion is assembled so as to be caught by the upward catching portion of the roof plate; A waterproof sheet attached to an upper surface of the first roof cover and having a waterproof function; A second roof which is installed on the roof plate so as to surround a connecting portion of the roof cover to which the downward latching portion of the first roof cover and the upward catching portion of the roof plate are assembled and which prevents penetration of rainwater into the connecting portion, cover; A solar module supporting beam fixedly mounted on an upper surface of the second roof cover; And a solar module installed to be fixed to the solar module supporting beam, wherein the solar module is installed to be directly supported on the roof frame through the connection support body, and a space formed between the connection supporting body and the roof plate, 1 roof cover and a second roof cover, wherein the connection support body includes: a seating part fixed to an upper surface of the roof steel frame; and an upper part extending upward from an upper surface of the seating part, A support part fixed by a bolt and a nut which are coupled through the second roof cover and the first roof cover to the solar module support beam, A plurality of heat insulating spaces extending in a downward direction from the lower surface and separated from each other by partition walls, and a connection groove formed in a lower end thereof to open downward, A lower support member having a lower extension supporting portion formed with an engagement groove having a diameter larger than that of the connection groove, and a connecting rod portion coupled to the upper end of the coupling rod to be engaged with the connection groove. And a connecting member having a bottom portion formed at the lower end thereof and fitted into the fitting groove to be engaged with the connecting member. The lower supporting member and the upper supporting member are integrally connected to each other through a connecting member Solar integrated roof system.

delete

delete

In order to solve the heat insulation and condensation phenomenon, a plurality of heat insulation spaces formed in the lower extension support are filled with a heat insulating material made of Styrofoam material, and a tension force is applied to the lower end of the second roof cover And the second roof cover is mounted on the roof plate, the tension contact unit is compressed and seated on the roof plate, so that the tension contact unit is firmly brought into close contact with the roof plate by the restoring force, And a condensation guide groove is formed on the upper surface of the lower panel of the panel panel fixing member along the longitudinal direction so that water generated by rainwater or condensation penetrating between the panel and the panel panel is guided along the condensation guide groove So that it can be discharged.

Since the solar integrated roof system according to the present invention is installed so that the solar module is directly supported on the roof steel frame by using the connecting support body, the supporting force and rigidity are much improved than that provided on the upper surface of the heat insulating panel, There is an effect that the support force and firmness are maintained even after the elapse of the period.

In addition, since the solar integrated module roof system according to the present invention is supported on the roof steel frame, the weight of the solar module to be installed can be selected by calculating the load that can be supported by the roof steel frame, Accordingly, there is an effect that an optimal supporting structure can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing the construction of a solar integrated roof system according to the present invention;
FIG. 2 is a sectional view showing an installed state of a solar integrated roof system according to the present invention,
FIG. 3 is an exploded perspective view illustrating a connection support body according to an embodiment of the present invention,
Fig. 4 is an assembled sectional view of Fig. 3; Fig.

The present invention will now be described in detail with reference to the accompanying drawings.

1 to 4, the solar integrated roof system according to the present invention is used for rigidly installing the solar module 10 and includes a roof steel frame 100, a connection support body 200, The first roof cover 700, the second roof cover 800, and the solar module supporting beam 900. The roof panel 600, the first roof cover 700, the second roof cover 800, .

First, the roof steel frame 100 is installed across the roof of the building to serve as a base support. The roof steel frame 100 has rigidity that is not easily deformed even when a certain load is applied. There are several more structures installed.

Next, the connection support body 200 is made of reinforced plastic or aluminum, and is fixed on the roof frame 100 and vertically installed to support and support a later-described solar module supporting beam 900 .

The lower supporting member 210 and the upper supporting member 220 are connected to each other through the connecting member 230 to have a structure integrally formed.

That is, the lower supporting member 210 includes a seating part 211 fixed to the upper surface of the roof frame 100, and an upwardly extending groove 213 extending vertically from the upper surface of the seating part 211, And an upper extension portion 212 formed to open upward.

The upper support member 220 is fixed to the solar module supporting beam 900 through a bolt 910 and a nut 920 which are fastened through the second roof cover 800 and the first roof cover 700 A plurality of heat insulating spaces 224 extending downward from the lower surface of the receiving portion 221 and separated by a partition wall 223 are formed in the receiving portion 221 and a connecting groove 225 is formed in the lower end thereof in a downward direction And a lower extension support portion 222 having an engagement groove 226 having a diameter larger than that of the connection groove 225 is formed on the inner side of the connection groove 225.

The connecting member 230 is formed at the upper end with a connecting rod portion 231 to be inserted into the connecting groove 225. A part of the connecting rod portion 231 is fitted into the receiving groove 226, And a lower end of which is formed with a fitting bush 233 which is inserted into the fitting groove 213 and is engaged with the fitting bush 233.

The lower supporting member 210 is fixed to the roof frame 100 by a bolt method or a welding method and the lower supporting member 210 is fixed to the lower supporting member 210 through the fitting portion 233 and the fitting groove 213 The upper supporting member 220 is coupled to the upper end of the connecting member 230 through the connecting groove 231 and the connecting groove 225 and the solar module supporting beam 900 is attached to the upper supporting member 220 The connection support body 200 is installed.

At this time, a plurality of the heat insulation spaces 224 formed in the lower extension support part 222 solves the heat insulation and condensation phenomenon to some extent only by the space vehicle body, but more preferably, in order to reliably solve the heat insulation and condensation phenomenon, It is preferable to insert auxiliary heat insulating members 227 made of styrofoam or urethane into the heat insulating space 224 as shown in FIG.

Meanwhile, in the present embodiment, the connection support body 200 is divided into the lower support member 210, the upper support member 220, and the connection member 230 for the convenience of production and maintenance, However, it may be constructed so as to be integrally injected.

The heat insulating panel fixing member 300 is provided adjacent to both sides of the connection supporting body 200 to hold the heat insulating panel 400. The heat insulating panel fixing member 300 includes a vertically erected vertical wall portion 310, And a lower locking part 330 bent outward from the lower end of the vertical wall part 310. The lower locking part 330 may be formed of a metal material.

Condensation guide grooves 340 are formed on the upper surface of the lower catching part 330 of the heat insulating panel fixing member 300 along the longitudinal direction to prevent rainwater or the like penetrating between the heat insulating panel 400 and the heat insulating panel fixing member 300 It is preferable that the water generated by the condensation phenomenon be guided along the condensate guide groove 340 and be discharged. Of course, the condensation guide groove 340 may be integrally formed by bending the intermediate portion downward when bending the lower engaging portion 330.

The heat insulating panel 400 is inserted between the upper and lower engaging portions 320 and 330 of the heat insulating panel fixing member 300 and is horizontally disposed on both sides of the connection supporting body 200 Respectively. The heat insulating panel 400 may be a conventional sandwich panel structure in which the upper and lower steel sheets are filled with styrofoam, but other products may be used.

Styrofoam used as the heat insulating panel 400 is composed of 14% by weight of glass fiber having a length of 2-3 cm and 2.5% by weight of sodium sesquicarbonate so as to enhance flame resistance by improving heat resistance and fire resistance while absorbing buffering power 4.5 wt% of monoglyceride, 8.5 wt% of DBNPA (2,2-Dibromo-3-nitrilopropionamide), 6.5 wt% of insuladd powder, 2.5 wt% of TOTM (Trioctyl trimellitate) And the remaining polystyrene resin is foam-molded.

Here, the glass fiber is added for dimensional stabilization and increase in tensile strength. However, if it exceeds 14% by weight, there is a risk of microcracks on the surface after molding, so the range should be limited to the above range. Sodium sesquicarbonate is a natural alkali agent expressed as Na ₂ CO ₃ .NaHCO ₃ .2H ₂ O. It is a natural inorganic substance and does not cause water pollution or environmental pollution and is harmless to the human body ), Easily soluble in water. Since the aqueous solution is slightly alkaline, it is added in order to prevent deterioration and discoloration in the present invention. The monoglyceride is added to enhance antifouling property by promoting emulsification and inhibiting foreign matter from adhering to the surface. DBNPA is a typical liquid antimicrobial agent having excellent antimicrobial properties even in an alkaline environment. It is known that DBNPA has excellent antimicrobial properties against staphylococcus, E. coli, pneumococcus, mites and fungi. In addition, the insulin powder is a microscopic hollow spherical powder having a size of 30 to 100 microns mainly composed of aluminum silicate and forms a ceramic coating of a closed air layer, exhibiting excellent heat radiation and thermal resistance, It is a non-combustible material with a melting point of about 1,800 ° C and has a compressive strength of about 3,000 N / cm 3 because it is an environmentally friendly material with no heavy metal, VOC and toxicity. In the present invention, it is added to enhance flame retardancy. The above-mentioned TOTM (Trioctyl Trimellitate) is added to promote the plasticization of the resin and enhance the heat resistance to prevent deterioration and increase the heat resistance. In addition, the polystyrene resin is a typical refractory resin, and is added as a base resin for enhancing flame resistance while strengthening impact resistance through foaming.

Further, a flame retardant coating layer may be further formed on the surface of the heat insulating panel 400 in a thickness of 0.2-0.4 mm. The coating liquid for forming the flame retardant coating layer may include 80% by weight of a PVC brush, 20% Lt; / RTI >

In this case, the additive is composed of 8 parts by weight of expanded graphite, 1.5 parts by weight of aluminum hydroxide, 4 parts by weight of zirconium, 6 parts by weight of mullite and 10 parts by weight of DOTP based on 100 parts by weight of the PVC brush. Since the Exandable Graphite has a layered structure of graphite, when particles or small molecules are inserted between the layers and heat is applied, particles are expanded by several hundreds of times as they are separated like an accordion. , And enhances flame resistance. The aluminum hydroxide is added to prevent hydrophobization of the PVC brush and to induce hydrophilization to increase the binding force. The zirconium is added to increase the fire resistance, the corrosion resistance and the flame retardancy by forming a protective coating made of an oxide or a nitrogen by bonding with oxygen in the air when a fire occurs. In addition, the mullite is added to increase the melting point to about 1500 ° C to enhance the flame resistance. In addition, the DOTP is a PVC plasticizer.

The roof plate support member 500 is installed to protrude upward from a portion of the upper surface of the heat insulating panel 400, that is, at a position corresponding to the folded seating portion 620 of the roof plate 600 described later, And is fixedly installed by a normal bolt method.

The roof plate 600 is supported horizontally by the roof plate supporting member 500 while being spaced apart from the upper portion of the heat insulating panel 400 and installed horizontally as the heat insulating panel 400, Are symmetrically installed close to both sides. The upper end of the roof plate 600 is folded upward and the upper end of the roof plate 600 is folded upward to cover the upper end of the roof plate receiving member 500 And a bent seating portion 620 to be assembled is formed. The roof plate 600 is installed on the heat insulating panel 400 and the bent seating portion 620 of the roof plate 600 is seated on the roof plate supporting member 500. Therefore, And is fixedly mounted on the panel 400.

Next, the first roof cover 700 is installed to shield the space formed between the roof plate 600 and the roof plate 600 from the upper part of the connection support body 200 to prevent penetration of rainwater. That is, both ends of the first roof cover 700 are downwardly bent and have a downwardly engaging portion 710 corresponding to the upwardly engaging portion 610 of the roof plate 600, and the downwardly engaging portion 710 And is fixedly installed by being assembled so as to be caught by the upward catching portion 610 of the roof plate 600

On the upper surface of the first roof cover 700, a waterproof sheet 720 having a waterproof function is attached to the upper surface of the first roof cover 700.

Next, the second roof cover 800 is assembled by assembling the downwardly engaging portion 710 of the first roof cover 700 and the upwardly engaging portion 610 of the roof plate 600 at the upper portion of the first roof cover 700 So that the rainwater can be prevented from penetrating into the connecting portion.

Here, the second roof cover 800 is formed at its lower end with a tension contact unit 810 formed like a bellows and having a tension force up and down. Therefore, when the second roof cover 800 is mounted on the roof plate 600, the tension contact unit 810 is compressed and seated on the roof plate 600, so that the tension contact unit 810 is fixed to the roof plate 600 by the restoring force, (600) so as to completely block the infiltration of rainwater.

Next, the solar module supporting beam 900 is fixedly installed on the upper surface of the second roof cover 800 and is fixedly installed through the bolt 910 and the nut 920. That is, the bolt 910 passing through the part of the solar module supporting beam 900 moves the second roof cover 800, the first roof cover 700, and the receiving unit 221 of the connecting body 200 sequentially And is fixedly installed through a nut 920 fastened to the bolt 910 at the lower part of the receiving part 221. [

A conventional solar module 10 is fixed to the upper portion of the solar module supporting beam 900 in a bolt manner.

Now, an installation process of the solar integrated roof system according to the present invention will be described.

First, the connection support body 200 is installed on the roof steel frame 100. That is, the lower supporting member 210 is fixed to the roof frame 100 by a bolt method or a welding method, and the lower supporting member 210 is connected to the lower supporting member 210 through the fitting portion 233 and the fitting groove 213 The upper supporting member 220 is coupled to the upper end of the connecting member 230 through the connecting groove 231 and the connecting groove 225.

Then, the heat insulating panel fixing member 300 is installed on both sides of the connection support body 200 so as to be fixed to the roof steel frame 100. The heat insulating panel 400 is coupled to be sandwiched between the upper latching portion 320 and the lower latching portion 330 of the heat insulating panel fixing member 300. At this time, a plurality of heat insulating panels 400 may be connected to each other depending on the size of the roof, and a connection support body 200 may be installed on the connecting part.

The roof plate supporting member 500 is fixedly installed on a part of the upper surface of the heat insulating panel 400 and the roof plate 600 is separated from the upper part of the heat insulating panel 400 through the roof plate supporting member 500 As shown in FIG. That is, one end of the roof plate 600 is assembled in such a manner that the folded seating portion 620 is placed on the roof plate support member 500, and the opposite end of the roof plate 600 is assembled with the first roof cover 700, As shown in Fig. Of course, it is preferable that the opposite end of the roof plate 600 is mounted on the heat insulating panel fixing member 300 so as to be supported thereon.

Then, the first roof cover 700 is installed to shield the space formed between the roof plate 600 and the roof plate 600 from the upper part of the connection support body 200 to prevent penetration of rainwater. That is, the downward locking portion 710 of the first roof cover 700 is installed to be assembled in such a manner that it is engaged with and engaged with the upward locking portion 610 of the roof plate 600. Therefore, the roof plates 600 installed on both sides of the connecting support body 200 are connected to each other through the first roof cover 700. A second roof cover 800 is installed on the first roof cover 700 so as to cover the first roof cover 700. At this time, the second roof cover 800 is installed so as to surround the connection portion where the downward locking portion 710 of the first roof cover 700 and the upward locking portion 610 of the roof plate 600 are assembled, It is installed to block penetration of rainwater. Of course, the tension cover 810 is formed at the lower end of the second roof cover 800, and is surely attached to the roof plate 600, so that penetration of the rainwater is completely blocked.

Then, a solar module supporting beam 900 is fixedly installed on the upper surface of the second roof cover 800 and a conventional solar module 10 is installed on the upper part of the solar module supporting beam 900 All installation work is completed.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

10: solar module 100: roof steel frame
200: connection support body 210: lower support member
220: upper support member 230: connecting member
300: insulating panel fixing member 400: insulating panel
500: roof plate supporting member 600: roof plate
700: First roof cover 800: Second roof cover
900: Supporting beam of solar module

Claims (4)

A number of roof steel frames installed across the roof of the building; A connection support body fixed on the roof steel frame and vertically installed; An upper locking part formed to be bent in an outward direction at an upper end of the vertical wall part and a lower locking part bent in an outward direction from a lower end of the vertical wall part, A heat insulating panel fixing member; A heat insulating panel which is fitted between the upper and lower engaging portions of the heat insulating panel fixing member and horizontally installed on both sides with respect to the connection supporting body; A roof plate supporting member fixedly installed upwardly from a part of the upper surface of the heat insulating panel to function as a space; And is horizontally installed as a heat insulating panel and supported symmetrically on both sides with respect to the connecting support body, and the upper end of the connecting support body is upwardly A roof plate having a bent seating portion formed with a bent portion and an upwardly bent portion formed at an opposite end thereof and having a bent seating portion assembled to surround an upper end of the roof plate supporting member; And a lower space formed between the roof plate and the roof plate to block penetration of rainwater and to prevent the penetration of rainwater. A first roof cover installed in such a manner that the downward locking portion is assembled so as to be caught by the upward catching portion of the roof plate; A waterproof sheet attached to an upper surface of the first roof cover and having a waterproof function; A second roof which is installed on the roof plate so as to surround a connecting portion of the roof cover to which the downward latching portion of the first roof cover and the upward catching portion of the roof plate are assembled and which prevents penetration of rainwater into the connecting portion, cover; A solar module supporting beam fixedly mounted on an upper surface of the second roof cover; And a solar module fixedly mounted on the solar module supporting beam,
The solar module is installed to be directly supported on the roof frame through the connection support body and a space formed between the connection support body and the roof plate is sealed through the first roof cover and the second roof cover,
The connection support body,
A lower support member having an upper portion extending upward from an upper surface of the seat portion and having an upper extension formed in a vertical direction so as to open upward in a fitting groove;
A support part fixed by a bolt and a nut which are coupled to each other through the second roof cover and the first roof cover, and a plurality of partition walls extending in a downward direction from the lower surface of the support part, A lower supporting member formed with a heat insulating space and formed at a lower end thereof with a connection groove opened downward and having an engagement groove having a diameter larger than that of the connection groove,
And a locking lug is formed at an upper end of the locking lug so as to be engaged with the locking lug. A locking lug is formed in a part of the locking lug so as to be engaged with the locking groove and assembled with the locking lug, And a connecting member,
Wherein the lower supporting member and the upper supporting member are integrally connected to each other through a connecting member.
delete The method according to claim 1,
Wherein a plurality of heat insulating spaces formed in the lower extension support are respectively filled with a heat insulating space by inserting auxiliary heat insulating members made of Styrofoam to solve the heat insulating and condensation phenomenon.
The method according to claim 1,
And a second roof cover is installed on the roof plate so that the tension contact unit is compressed and seated on the roof plate so that the tension contact unit can be restored to the roof by the restoring force, So that the rainwater can be surely adhered to the plate,
A condensation guide groove is formed on the upper surface of the lower panel of the panel panel fixing member along the longitudinal direction to guide water along the condensate guide channel to the outside through the condensation guide groove. Wherein the roof structure is constructed so that the roof structure is constructed so as to be able to receive the roof structure.

Images