KR101330076B1 - Lighting structure and construction method for the roof without bolts - Google Patents

Lighting structure and construction method for the roof without bolts Download PDF

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Publication number
KR101330076B1
KR101330076B1 KR1020130051069A KR20130051069A KR101330076B1 KR 101330076 B1 KR101330076 B1 KR 101330076B1 KR 1020130051069 A KR1020130051069 A KR 1020130051069A KR 20130051069 A KR20130051069 A KR 20130051069A KR 101330076 B1 KR101330076 B1 KR 101330076B1
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South Korea
Prior art keywords
unit
transparent plate
vertical frame
roof
pressing
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KR1020130051069A
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Korean (ko)
Inventor
표기조
Original Assignee
주식회사 일강케이스판
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Priority to KR1020130051069A priority Critical patent/KR101330076B1/en
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Publication of KR101330076B1 publication Critical patent/KR101330076B1/en

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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D13/00Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage; Sky-lights
    • E04D13/03Sky-lights; Domes; Ventilating sky-lights
    • E04D13/032Supports or connecting means for sky-lights of vaulted shape

Abstract

The present invention relates to a mining structure provided in a roof, the roof being formed by connecting U-shaped concave units; At least one light unit for forming a plurality of light holes at the bottom of the unit; A transparent plate unit inserted into the mining unit to cover the mining hole and made of a transparent material; One end and the bottom of the transparent plate unit is connected, the inner wall surface and the outer surface of the mining unit is disposed so as to stand upright, the upper end is a vertical frame supported by a connecting portion formed on the upper end of the mining unit; One end is connected to the upper end of the vertical frame, the other end is connected to the other end of the transparent plate unit to provide an adhesive force to the transparent plate unit and the vertical frame; characterized in that it comprises a metal material The present invention is suitable for construction on a roof formed by connecting bent units, and relates to a boltless roofing skylight structure and a construction method thereof without using coupling means such as bolts.

Description

LIGHTING STRUCTURE AND CONSTRUCTION METHOD FOR THE ROOF WITHOUT BOLTS}

The present invention relates to a mining structure provided on a roof, and is particularly suitable for construction on a roof formed by connecting units bent metal, and does not use a coupling means such as bolts. It is about a construction method.

Most buildings have roofs, so the interior of the building often needs to be lit during the day. Of course, there are many buildings such as apartments that have excellent natural light. However, in the case of large auditoriums or factory buildings, natural light is often poor.

In particular, in recent years, a metal plate is often bent to be used as a roof of a building, and an arched roof is constructed by connecting units forming an arch shape with each other.

Ventilation is often provided on the roof, but not many technologies allow natural light through the roof.

As a related art of the present invention, there is a "building light panel" of Korean Patent Registration No. 10-1021014 (registered on March 2, 2011).

1 is a perspective view of a building skylight panel according to the prior art, the building skylight panel 10 as shown is integrally bonded to the transparent synthetic resin 20 to the surface of the perforated metal plate 12 to enable natural light It is manufactured, a plurality of through holes 14 are formed in the metal plate 12 at appropriate intervals so that sunlight passes through, through the through hole 14 by bonding a transparent synthetic resin 20 to the surface of the metal plate 12 It is characterized by blocking rain or harmful substances from the outside.

The building skylight panel according to the prior art is provided by bonding the transparent synthetic resin 20 on the metal plate 12, so there is an unsuitable surface to be used for the prefabricated roof, such as arch roof that is assembled through bending in the field.

The prefabricated roof provided by connecting the U-shaped bent units has a large number of bent portions and is connected by pressing each end when connecting neighboring units, so as to be bent using a metal sheet 12 combined with a transparent synthetic resin as in the prior art. If the roof is formed by pressing, there is a problem that the transparent synthetic resin is likely to fall or break.

Skylights provided in existing buildings have to be installed after drilling a hole in the wall or roof of the building, but must use a means such as bolts for fixing, there was a problem that the work is difficult and there is a high risk of leakage.

1. Republic of Korea Patent Registration No. 10-1021014 (2011.03.02 registration)

Therefore, the present invention basically proposes a roofing skylight structure capable of natural light on the roof of the building, a boltless method without a bolt, easy to construct and is suitable for use in the prefabricated roof consisting of the assembly of the bent units To provide a bolt-type roofing mining structure and its construction method.

A boltless roofing skylight structure of the present invention for achieving the above object is a roof formed by connecting U-shaped concave units; At least one light unit for forming a plurality of light holes at the bottom of the unit; A transparent plate unit inserted into the mining unit to cover the mining hole and made of a transparent material; One end and the bottom of the transparent plate unit is connected, the inner wall surface and the outer surface of the mining unit is disposed so as to stand upright, the upper end is a vertical frame supported by a connecting portion formed on the upper end of the mining unit; One end is connected to the upper end of the vertical frame, the other end is connected to the other end of the transparent plate unit; a pressing member for providing adhesion to the transparent plate unit and the vertical frame; characterized in that it comprises a.

And in the present invention, the pressing member is characterized in that the length can be adjusted to adjust the adhesion force acting on the transparent plate unit and the vertical frame.

And in the present invention, the transparent plate unit, the connecting plate is coupled to the plate-shaped transparent plate and the left and right ends of the transparent plate, the connecting end for connecting the vertical frame or the pressing member on the upper surface of each connection bracket It is formed, the sealing material is characterized in that the sealing material is coupled to the lower surface and the outer surface of each connection bracket.

And in the present invention, the connection bracket, a fitting groove is formed on the inner side to be able to fit the transparent plate into the fitting groove, the coupling groove for coupling the sealing material on the lower surface and the outer surface of the connection bracket. Is formed, the connection end is characterized in that the position movement is possible by sliding the vertical frame or the pressing member.

And in the present invention, the lower connector is formed at the lower end of the vertical frame, the upper connector is formed at the upper end, characterized in that the connecting projection is formed on the upper and lower ends of the pressing member.

According to still another aspect of the present invention, there is provided a method of constructing a lightless structure for a boltless roof, comprising: a roof assembling step of forming a roof by connecting U-shaped concave units; A transparent plate unit assembling step of providing a transparent plate unit by inserting the connection brackets on both left and right ends of the transparent plate; A transparent plate unit installation step of inserting the transparent plate unit into a mining unit in which a plurality of light holes are formed at the bottom of the unit so that the transparent plate unit is positioned above the light hole; After connecting the lower connector is formed at the lower end of the vertical frame to the connection end of any one side of the connection bracket of the transparent plate unit, the outer surface of the vertical frame to stand in contact with the inner wall surface of the light unit for the upright, A vertical frame installation step of allowing the upper end of the vertical frame to be supported by a connection part formed at the upper end of the light unit; Attaching the connecting projection formed on the lower end of the pressing member to the connection end of the bracket for connecting the other side, the connecting projection formed on the upper end of the pressing member to connect to the upper connector formed on the upper end of the vertical frame It characterized by including.

And the skylight structure construction method for the no-bolt type roof, after the step of installing the pressing member is characterized in that the transparent plate unit and the vertical frame can be fixed while being in close contact with the light unit for the mining after adjusting the length of the pressing member. do.

The boltless roofing skylight structure and the construction method thereof according to the present invention can be installed on the roof in a boltless manner so that the operation is convenient, and there is no fear of leakage and the structural stability is high.

In addition, due to the nature of the prefabricated roof, it is possible to solve the problem that it is difficult to form a skylight on the roof, so that sufficient natural light is provided to the interior of the building with the prefabricated roof, thereby contributing to energy saving and helping to create a more comfortable indoor environment. There is also an effect.

1 is a perspective view of a building light panel according to the prior art.
Figure 2 is a perspective view of the skylight structure for the bolt-free roof according to an embodiment of the present invention.
Figure 3 is a cross-sectional view of the mining structure for the bolt-free roof.
Figure 4 is an enlarged cross-sectional view of the skylight structure for the bolt-free roof.
Figure 5 is a work flow chart showing the construction sequence of the bolt-free roofing mining structure.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention in the drawings, portions not related to the description are omitted, and like reference numerals are given to similar portions throughout the specification.

Whenever a component is referred to as "including" an element throughout the specification, it is to be understood that the element may include other elements, not the exclusion of any other element, unless the context clearly dictates otherwise.

Figure 2 is a perspective view of a boltless roofing skylighting structure according to an embodiment of the present invention, Figure 3 is a cross-sectional view of the boltless roofing skylighting structure, Figure 4 is an enlarged cross-sectional view of the boltless roofing skylighting structure. to be. Figure 5 is a working flow chart showing the construction sequence of the boltless roofing mining structure.

As shown, the boltless roofing skylighting structure according to the present invention is provided with a skylighting structure for natural light on the roof, the roof of the building is constructed by the assembly method.

The roof 100 is formed by connecting a plurality of units 110, and in this embodiment, the roof forms an arch shape. However, in addition to the arch shape, the roof may be arranged horizontally or inclined, or may have a shape in which two inclined roofs form a triangle.

Units 110 are manufactured by bending a metal plate using a dedicated device, and forms a substantially U-shaped cross section, the construction of the roof using such a unit is a well-known technique.

The roof 100 is formed by connecting the upper ends of the U-shaped unit 110 to each other, in particular, in the case of the present invention, some of the unit 110 is formed with one or more light holes 111 at the bottom thereof. For convenience of description, the one having the light hole 111 at the bottom of the units 110 is called a light unit 110a.

The size or number of the mining holes 111 formed in the mining unit 110a may be variously changed, and the size of the mining holes may be selected according to the site conditions.

The transparent plate unit 200 covering the mining hole 111 is provided in the mining unit 110a of the unit 110 forming the roof 100, and the transparent plate unit 200 is made of a transparent material through which light can pass. It is made and inserted in the upper portion of the mining unit (110a).

The transparent plate unit 200 may be formed to cover the entire mining unit 110a or may be formed to cover a part of the mining unit 110a.

More specifically, the transparent plate unit 200 includes a plate-like transparent plate 210 and connection brackets 220 coupled to both ends of the left and right sides of the transparent plate 210, and each connection bracket 220 is made of aluminum. It is preferable to be molded by extrusion.

And a connection end 221 of a predetermined shape is formed on the upper surface of the connection bracket 220 is configured to enable the connection of the vertical frame 300 or the pressing member 400 to be described later. And the sealing material 230 is coupled to the lower surface and the outer surface of the connection bracket 220. The sealing material 230 serves to prevent the rain water or other foreign matter from passing through, and is in close contact with the left and right inner walls and the bottom of the mining unit 110a. As the sealing material 230, a known rubber material may be used.

The vertical frame 300 or the pressing member 400 connected to the connection end 221 of the connection bracket 220 can be moved by sliding after being fitted to the connection end 221, and position the seat to select an appropriate position. Make sure that it can be fixed after holding.

The inner side of the connection bracket 220 is formed with a fitting groove 222 for fitting the transparent plate 210, the coupling groove for coupling the sealing material 230 on the bottom and outer surface of the connection bracket 220. 223 is formed. Coupling groove 223 is formed in the approximately T-shaped cross-section sealing member 230 is inserted into the coupling groove 223 sealing member 230 is not easily separated.

The inside of the connection bracket 220 is inserted through the fitting groove 222 to prevent rainwater from flowing through the upper and lower surfaces of each end side of the transparent plate 210 positioned in the connection bracket 220. An inner sealing material 230a may be further provided on the upper and lower surfaces of the transparent plate 210.

The inner sealing material 230a may have the same shape as the sealing material 230 fastened to the coupling groove 223, and other watertight sealing materials having various shapes and structures may be used. Since the inner sealing material 230a is provided, rainwater may be blocked from flowing along the transparent plate 210.

Vertical frame 300 and the pressing member 400 as a means for preventing the transparent plate unit 200 from being blown or flowed by the wind, etc. after the transparent plate unit 200 is inserted into the mining unit 110a and positioned. Is used.

As shown in the vertical frame 300, one end and the bottom of the transparent plate unit 200 are connected, but the outer surface of the vertical frame 300 is in contact with the right inner wall of the light unit 110a as shown in FIG. It is arranged to be upright, specifically, the lower end of the vertical frame 300 is connected to the connection end 221 of any one side connection bracket 220 of the transparent plate unit 200. The upper right side of the mining unit 110a is formed with a connecting portion A which is connected to the neighboring unit 110, and the upper end of the vertical frame 300 is supported by the connecting portion A that is bent at a right angle.

It is reasonable to make the shape of the connection bracket 220 coupled to both the left and right sides of the transparent plate unit 200 one by one. In particular, the shape of the connection end 221 formed on the upper surface of the connection bracket 220 is also the same. Preferably, the connection end 221 may be configured such that any of the vertical frame 300 and the pressing member 400 can be connected.

Therefore, in the present invention, the connecting end 221 is made of two protruding ribs (r) forming parallel and spaced apart distances, and the two protruding ribs (r) are formed in an inclined shape between or between two protruding ribs (r). The pressing member 400 or the vertical frame 300 is connected to the rib r.

As shown in the drawing, the lower end of the vertical frame 300 is connected to the connection end 221 of the right connection bracket 220 in the drawing, and the pressure is applied to the connection end 221 of the left connection bracket 220. The member 400 is connected.

The lower connector 310 is formed at the lower end of the vertical frame 300, and the upper connector 320 is formed at the upper end of the vertical frame 300. The vertical frame 300 may have a long bar shape or a plate shape, and a lower connector 310 and an upper connector 320 for fastening are provided at upper and lower ends of the vertical frame 300.

The lower connector 310 is engaged with the protruding rib (r) on the outside forming the connection end 221, the end of the lower connector 310 is preferably formed to be bent to hold the end of the protruding rib (r). Do. The specific shape of the lower connector 310 may be formed in various other shapes that can be connected to the protruding rib (r) in addition to the shape shown.

On the other hand, the upper connector 320 of the vertical frame 300 is preferably to form the same shape as the connection end 221 of the connecting bracket 220. That is, the upper connector 320 is also made of two protruding ribs (r) to be coupled to the upper end of the pressing member 400.

The pressing member 400 is disposed obliquely so that one end of the pressing member 400 is connected to the upper end of the vertical frame 300, and the other end of the pressing member 400 is connected to the other end of the transparent plate unit 200, thereby providing a transparent plate. The adhesion force is provided to the unit 200 and the vertical frame 300.

Preferably, the pressing member 400 may be adjusted in length, and thus, as the length of the pressing member 400 is increased, the pressing member 400 may provide greater adhesion to the vertical frame 300 and the transparent plate unit 200.

In the present embodiment, the pressing member 400 may be adjusted in length through screwing, and includes a nut part 410 and an adjusting part 420 connected to each end of the nut part 410. The nut part 410 is located at the center, and each adjusting part 420 is connected to the nut part 410 by screwing, and when the nut part 410 is rotated or each adjusting part 420 is rotated, the overall pressing member The length of 400 can be adjusted.

And connecting projections 421 are formed at the upper and lower ends of the pressing member 400, the connecting projections 421 are formed at the end of each adjustment unit 420. The connecting protrusion 421 of the pressing member 400 is coupled to the connecting end 221 of the connecting bracket 220 mentioned above or coupled to the upper connector 320 of the vertical frame 300.

The connecting protrusion 421 of the pressing member 400 may be deformed according to the shape of the connecting end 221 or the upper connector 320, one end of the pressing member 400 is connected to the connecting end 221 and the other end is When the pressing member 400 is pushed or pulled in a state coupled to the upper connector 320, the position can be moved by sliding, and after moving to the desired position, the pressing member 400 can be fixed by increasing the length of the pressing member 400.

As described above, the boltless roofing skylighting structure according to the present invention is provided with a transparent plate unit to allow natural light through a skylight hole formed in a unit for forming a roof, such as a bolt for fixing the transparent plate unit. There is an advantage that it is possible to simply install by using the pressing member and the vertical frame without using any means.

Next, a description will be given of the skylight structure construction method for a non-bolt type roof which is another idea of the present invention.

As shown in FIG. 5, the method of constructing a lightless structure for a boltless roof according to the present invention includes a roof assembly step (S1), a transparent plate unit assembly step (S2), a transparent plate unit installation step (S3), and a vertical frame installation step ( S4) and the pressing member installation step (S5) is made.

Roof assembly step (S1) is to form a roof 100 in the shape of an arch or other consumer desired, assembling the roof 100 by connecting the U-shaped concave units (110).

The unit 110 forming the roof 100 may be classified into a light mining hole 111 and a light mining hole, and at least one unit of the plurality of unit 110 may be a mining hole. The unit 111 is formed and the unit in which the light hole 111 is formed is referred to as the unit for light mining 110a.

After the roof assembly step (S1) is followed by the transparent plate unit assembly step (S2). Transparent plate unit assembly step (S2) is to insert the connecting bracket 220 to the left and right both ends of the transparent plate 210 to provide a transparent plate unit 200.

A connection end 221 is formed on an upper surface of the connection bracket 220, and a sealing material 230 is coupled to a lower surface and an outer surface of the connection bracket 220.

Next, the transparent plate unit installation step S3 is continued, and the prepared transparent plate unit 200 is coupled to the mining unit 110a having the mining hole 111 among the unit 110 so that the transparent plate unit 200 is provided. To be located above the light hole (111).

Since the transparent plate unit 200 is provided to cover the skylight hole 111, rainwater does not flow into the skylight hole 111, and light passes through the skylight hole 111 so that natural light is generated inside the building. .

When the transparent plate unit installation is completed, the vertical frame installation step (S4) is followed.

In the vertical frame installation step (S4), after connecting the lower connector 310 of the vertical frame 300 to the connection end 221 of any one side connection bracket 220 of the transparent plate unit 200, the light unit 110a Step to stand up in the state in which the outer surface of the vertical frame 300 is in contact with the inner wall surface of the.

An upper connector 320 is formed at an upper end of the vertical frame 300, and the vertical frame 300 standing upright is in contact with the right inner wall surface of the light unit 110a. The upper right side of the mining unit 110a is formed with a connecting portion A which is connected to the neighboring unit 110, and the upper end of the vertical frame 300 is supported by the connecting portion A that is bent at a right angle.

Subsequently, the pressing member installation step S5 is continued, and the connecting protrusion 421 formed at the lower end of the pressing member 400 is connected to the connection end 221 of the other connection bracket 220, and the pressing member 400. The connection protrusion 421 formed at the upper end of the connection frame is connected to the upper connector 320 formed at the upper end of the vertical frame 300.

The pressing member 400 is installed at an angle, and the transparent plate unit 200 and the vertical frame 300 may be fixed at a predetermined position by the pressing member 400.

In particular, since the length of the pressing member 400 can be adjusted by adjusting the length of the pressing member 400 after the pressing member installation step (S5), the transparent plate unit 200 and the vertical frame 300 is mining unit (110a) By being in close contact with, it can be fixed without flow.

In the preferred embodiment of the present invention has been described with respect to the roof of the roof is formed in the shape of an arch, it is obvious that the shape of the roof can be variously changed.

And the present invention is to make the natural light through the roof inside the building, it can be easily installed without using any fastening means such as bolts, there is an advantage to ensure the stability by increasing the bonding force.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be.

It is therefore to be understood that the embodiments described above are intended to be illustrative, but not limiting, in all respects. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

The present invention can be used for natural light of various prefabricated roofs.

100: roof 110: unit
110a: mining unit 111: mining hole
200: transparent plate unit 210: transparent plate
220: connection bracket 221: connection end
222: fitting groove 223: coupling groove
230: sealing material 300: vertical frame
310: lower connector 320: upper connector
400: pressure member 410: nut part
420: adjusting unit 421: connecting projection
r: protruding rib S1: roof assembly step
S2: transparent plate unit assembly step S3: transparent plate unit installation step
S4: Vertical frame installation step S5: Pressure member installation step

Claims (7)

  1. In the roofing mining structure,
    A roof formed by connecting U-shaped concave units;
    At least one light unit for forming a plurality of light holes at the bottom of the unit;
    A transparent plate unit inserted into the mining unit to cover the mining hole and made of a transparent material;
    One end and the bottom of the transparent plate unit is connected, the inner wall surface and the outer surface of the mining unit is disposed so as to stand upright, the upper end is a vertical frame supported by a connecting portion formed on the upper end of the mining unit;
    One end is connected to the upper end of the vertical frame, the other end is connected to the other end of the transparent plate unit is a pressing member for providing adhesion to the transparent plate unit and the vertical frame; Roofing Skylights.
  2. The method of claim 1,
    The pressing member
    The skylight structure for the boltless roof system, characterized in that the length can be adjusted to adjust the adhesion force acting on the transparent plate unit and the vertical frame.
  3. The method of claim 1,
    The transparent plate unit,
    The plate-shaped transparent plate and the connecting brackets are coupled to the left and right ends of the transparent plate, and the connecting end for connecting the vertical frame or the pressing member is formed on the upper surface of each connecting bracket, and the lower surface of each connecting bracket Or the skylight structure for the bolt-free roof, characterized in that the sealing material is coupled to the outer surface.
  4. The method of claim 3, wherein
    The connection bracket,
    A fitting groove is formed on an inner surface to allow the transparent plate to be inserted into the fitting groove, and a coupling groove for coupling the sealing material is formed on a lower surface or an outer surface of the connection bracket, and the connection end is vertically connected. A boltless roofing skylighting structure, characterized in that the position can be moved by sliding the frame or pressing member.
  5. 5. The method of claim 4,
    The lower connector is formed on the lower end of the vertical frame, the upper connector is formed on the upper end, boltless roofing skylighting structure, characterized in that the connecting projection is formed on each of the one end and the other end of the pressing member.
  6. In the construction method of the roof skylighting structure,
    A roof assembly step of connecting the U-shaped concave units to form a roof;
    A transparent plate unit assembling step of providing a transparent plate unit by inserting the connection brackets on both left and right ends of the transparent plate;
    A transparent plate unit installation step of inserting the transparent plate unit into a mining unit in which a plurality of light holes are formed at the bottom of the unit so that the transparent plate unit is positioned above the light hole;
    After connecting the lower connector is formed at the lower end of the vertical frame to the connection end of any one side of the connection bracket of the transparent plate unit, the outer surface of the vertical frame to stand in contact with the inner wall surface of the light unit for the upright, A vertical frame installation step of allowing the upper end of the vertical frame to be supported by a connection part formed at the upper end of the light unit;
    Attaching the connecting projection formed on the lower end of the pressing member to the connection end of the bracket for connecting the other side, the connecting projection formed on the upper end of the pressing member to connect to the upper connector formed on the upper end of the vertical frame Mining structure construction method for a no-bolt type roof comprising a.
  7. The method according to claim 6,
    The skylight structure construction method for the bolt-free roof,
    After the pressing member is installed step of adjusting the length of the pressing member is a boltless roofing skylight structure construction method characterized in that the transparent plate unit and the vertical frame can be fixed while being in close contact with the light unit.
KR1020130051069A 2013-05-07 2013-05-07 Lighting structure and construction method for the roof without bolts KR101330076B1 (en)

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Application Number Priority Date Filing Date Title
KR1020130051069A KR101330076B1 (en) 2013-05-07 2013-05-07 Lighting structure and construction method for the roof without bolts

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Application Number Priority Date Filing Date Title
KR1020130051069A KR101330076B1 (en) 2013-05-07 2013-05-07 Lighting structure and construction method for the roof without bolts

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS54127124A (en) * 1978-03-25 1979-10-02 Sanko Kinzoku Kougiyou Kk Lighting roof
JP2002194845A (en) 2000-12-26 2002-07-10 Nkk Corp Roof structure of structure, method of manufacturing roof structure unit and execution method of roof
JP2005002580A (en) 2003-06-09 2005-01-06 Kanto Auto Works Ltd Prefabricated frame structure for defining semi-indoor space
JP2010209515A (en) 2009-03-06 2010-09-24 Sanko Metal Ind Co Ltd Solar power generation equipment

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS54127124A (en) * 1978-03-25 1979-10-02 Sanko Kinzoku Kougiyou Kk Lighting roof
JP2002194845A (en) 2000-12-26 2002-07-10 Nkk Corp Roof structure of structure, method of manufacturing roof structure unit and execution method of roof
JP2005002580A (en) 2003-06-09 2005-01-06 Kanto Auto Works Ltd Prefabricated frame structure for defining semi-indoor space
JP2010209515A (en) 2009-03-06 2010-09-24 Sanko Metal Ind Co Ltd Solar power generation equipment

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