KR102272074B1 - Equipment for connecting structures on roof panels - Google Patents

Abstract

Roof panel 300 supported by supporting frames 400 - The roof panel 300 is made by inserting or injecting a core material between steel sheets, and the upper surface of the roof panel 300 is in the front and rear longitudinal direction. It includes a plurality of long elongated valleys 320 and a plurality of peaks 340, wherein the valleys 320 and the peaks 340 are alternately arranged along the longitudinal direction. A device for connecting a structure on a roof panel, which is connected to the roof panel (300), is disclosed. The structure connecting device is provided on the roof panel 300 so as to be located directly above the support frame 400, and a seating portion 122 that is seated on the mountain portion 340 of the roof panel 300; a bracket 120 provided on the seating part 122 and including a fixing part 124 to which a part of the structure 200 is fixed; a watertight pad 140 made of a viscoelastic material interposed between the seating part 122 and the roof panel 300; and a fastener 500 fastened to the support frame 400 by sequentially penetrating the seating part 122, the watertight pad 140, and the roof panel 300, and the seating part 122 is the ridge. An upper horizontal plate portion 1221 formed to correspond to the upper horizontal surface 342 of the 340, and a pair of inclined side surfaces 344 of the mountain portion 340 connected to both side ends of the upper horizontal plate portion 1221 A pair of inclined side plate portions 1222 corresponding to, and a lower flat surface 322 of each of the valley portions 320 connected to each end of the side plate portion 1222 and located on both sides of the mountain portion 340 and A corresponding pair of lower horizontal plate portions 1223 integrally included, the upper horizontal plate portion 1221 allows the fastener 500 to pass through, but is obscured by a portion of the structure 200 . A hole 2 is formed, and the watertight pad 140 is compressed and deformed between the seating part 122 and the roof panel 300 , and the watertight pad 140 is penetrated by the fastener 500 . The gap between the inner circumferential surface of the pad hole formed in the pad hole and the outer circumferential surface of the fastener 500 is sealed watertightly.

Description

Equipment for connecting structures on roof panels

The present invention relates to a device for connecting structures on a roof panel, and more particularly, stably fixing any structure to one surface of a roof panel in which valleys and mountains are alternately continuous, and in this case, the waterproof properties of the roof panel are reliable It relates to a structure connection device on a roof panel that can ensure that there is.

The roof panel, for example, is made by inserting or injecting a core material such as EPS, glass wool, or rigid polyurethane between molded steel sheets, and a typical example is a sandwich panel. Typically, a roof panel includes a top surface in which valley portions and peaks are alternately continuous along the width direction.

On the other hand, various types or structures of various types are installed and used on the roof panel. For example, a solar power generation facility is installed on a roof panel and used. Devices for connecting any structure to a roof panel are known in the art. Such a device generally includes a bracket disposed in contact with the valley portion of the roof panel and a bolt that penetrates the bracket and is fastened to the roof panel.

However, in the prior art, when water, particularly rainwater, falls on the roof panel, it collects in the valley located relatively low, and the water collected in the valley penetrates into the core located between the steel plates of the roof panel through the hole penetrated by the bolt. There is a problem that This problem made it difficult for the roof panel to continuously maintain waterproof properties, and there was a high risk of leaks occurring over time after construction. In addition, in the prior art, when the bracket supports a structure, particularly, a structure including a large column, it is difficult to stably support the structure without shaking. For this reason, the bracket and structure cannot be maintained without shaking on the roof panel before fastening with bolts, etc., which greatly reduces the workability of the installer.

Korean Patent Registration No. 10-1875164 (2018.06.29.)

The problem to be solved by the present invention is to stably fix an arbitrary structure to one surface of a roof panel in which valleys and mountains are alternately continuous. It is to provide a structure connection device on the roof panel that can be guaranteed.

According to one aspect of the present invention, the roof panel 300 supported by the supporting frames 400 - the roof panel 300 is made by inserting or injecting a core material between steel sheets, and the roof panel 300 The upper surface of the trough includes a plurality of valleys 320 and a plurality of peaks 340 elongated in the longitudinal direction, and the valleys 320 and the peaks 340 are alternately arranged along the longitudinal direction. A structure connection device on a roof panel is provided, which connects the structure 200 to the roof panel 300 on the top, and the structure connection device is located directly above the support frame 400, the roof panel ( 300) provided on the roof panel 300, a seating portion 122 that is seated on the mountain portion 340 of the roof panel 300, and is provided on an upper portion of the seating portion 122 and to which a part of the structure 200 is fixed. Bracket 120 comprising a government 124; a watertight pad 140 made of a viscoelastic material interposed between the seating part 122 and the roof panel 300; and a fastener 500 fastened to the support frame 400 by sequentially penetrating the seating part 122, the watertight pad 140, and the roof panel 300, and the seating part 122 is the ridge. An upper horizontal plate portion 1221 formed to correspond to the upper horizontal surface 342 of the 340, and a pair of inclined side surfaces 344 of the upper horizontal plate portion 1221 connected to both ends of the upper horizontal plate portion 1221 A pair of inclined side plate parts 1222 corresponding to the lower flat surfaces 322 of each of the valley parts 320 connected to the end of each of the side plate parts 1222 and located on both sides of the mountain part 340 ) and a pair of lower horizontal plate portions 1223 corresponding to one another integrally, and the upper horizontal plate portion 1221 allows passage of the fastener 500, but is covered by a part of the structure 200, A through hole 2 is formed, and the watertight pad 140 is compressed and deformed between the seating part 122 and the roof panel 300 , and the watertight pad 140 is penetrated by the fastener 500 . ) to seal the gap between the inner peripheral surface of the pad hole formed in the inner peripheral surface and the outer peripheral surface of the fastener 500 in a watertight manner.

According to an embodiment, the bracket 120 reinforces the pair of side plate parts 1222 and the pair of lower horizontal plate parts 1223, and at the same time, the lower horizontal plate part 1223 and the watertight pad. (140) to prevent lifting between the horizontal reinforcement part 1251 and the horizontal reinforcement part 1251 horizontally extending from the side side of the upper horizontal plate part 1221 to the side end of the horizontal reinforcement part 1251. It further includes a reinforcement part 125 made of a vertical reinforcement part 1252 connected to the lower horizontal plate part 1223 .

According to an embodiment, the fixing part 124 includes a base plate 1246 coupled to the upper surface of the upper horizontal plate part 1221 by fastening or welding, a pair of vertical wall parts 1247 and 1247, and the It includes a pair of angles formed under each of a pair of vertical wall parts 1247 and 1247 and consisting of a pair of horizontal wall parts 1248 and 1248 coupled to the base plate 1246 by fastening or welding, The base plate 1246 covers all or at least a part of the outer edge of the seating part 122 or the outer edge of the watertight pad 140 .

The present invention includes a bracket including a seating part configured to have a bent shape to surround the peak of a roof panel and a fixing part provided to fix a structure on the top of the seating part, and a fastener (especially, It relates to a structure connecting device on a roof panel having a structure for fastening the bolt), and by interposing a watertight pad between the roof panel and the bracket, it is possible to prevent the leakage phenomenon that has occurred after a certain period of time after construction, and the roof panel By the bracket structure that is bent in the shape of and includes a seating part integrally including an upper horizontal plate part, an inclined side plate part, and a lower horizontal plate part, the bracket expands the area supported by the roof panel to realize a stable structure, in particular, It prevents the bracket from falling to the left and right during construction and makes it able to withstand the load well. In addition, in the case of constructing a separate structure on the roof panel, if the separate structure can be supported, the installation position of the separate structure can be freely adjusted vertically or horizontally.

1 is a perspective view for explaining a structure connection device on a roof panel according to a first embodiment of the present invention.
Figure 2 is a cross-sectional view for explaining the structure connection device shown in Figure 1.
3 is a perspective view for explaining a structure connection device on a roof panel according to a second embodiment of the present invention.
Figure 4 is a cross-sectional view for explaining the structure connection device shown in Figure 3;
5 is a perspective view for explaining a structure connection device on a roof panel according to a third embodiment of the present invention.
6 is a cross-sectional view for explaining the structure connection device shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. It should be noted that the accompanying drawings and the embodiments described with reference thereto are simplified and illustrated for the purpose of helping those of ordinary skill in the art to understand the present invention.

[First embodiment]

1 is a perspective view for explaining a device for connecting a structure on a roof panel according to a first embodiment of the present invention, and FIG. 2 is a cross-sectional view for explaining the device for connecting a structure shown in FIG. 1 .

1 and 2, the roof panel 300 and the supporting frames 400 made of C-shaped steel supporting the roof panel 300, and an arbitrary structure 200 disposed on the roof panel 300. And, on the roof panel 300 , the structure connecting device 100 on the roof panel connecting the structure 200 to the roof panel 300 can be seen.

The roof panel 300 is a sandwich panel made by inserting or injecting a core material such as EPS, glass wool, or rigid polyurethane between molded steel sheets (or color coils), and a plurality of valleys extending in the longitudinal direction in the front and rear directions. portion 320 and a top surface including a plurality of peaks 340 . The valleys 320 and the peaks 340 are alternately arranged along the width direction. Accordingly, one peak 340 exists between the two adjacent valleys 320 and 320 . Each of the peaks 340 includes an upper flat surface 342 and a pair of inclined side surfaces 343 extending obliquely from the upper flat surface 342 to the lower flat surface 322 in the valley 320 . do.

In this embodiment, the structure 200 includes a lower horizontal frame 240 and an upper vertical frame 220 . In this embodiment, the horizontal frame 240 has a bar shape of a rectangular cross section.

On the other hand, the structure connection device 100 is provided on the roof panel 300 so as to be located directly above the support frame 400 described above, and is seated on the mountain portion 340 of the roof panel 300 . For example, a bracket 120 made of a metal material including the part 122 and the fixing part 124 integrally formed on the upper part of the seating part 122 and to which the horizontal frame 240 of the structure 200 is fixed. includes The bracket 120 is provided in plurality along the longitudinal direction of the mountain portion 340 . By appropriately adjusting the spacing between the plurality of brackets 120 by the operator, the structure connecting device 100 can be applied to various structures 200 .

In addition, the structure connecting device 100 is a viscoelastic material interposed between the seating portion 122 of the bracket 120 and the roof panel 300, most preferably, a watertight pad 140 made of a rubber material, and a fastener 500 that passes through the seating portion 122 and the watertight pad 140 and the roof panel 300 in sequence and is fastened to the support frame 400 . The fastener 500 is preferably a bolt.

The seating portion 122 is formed to correspond to the upper horizontal surface 342 of the mountain portion 340 and includes an upper horizontal plate portion 1221 facing the upper horizontal surface 342, and both side ends of the horizontal plate portion 1221. A pair of inclined side plate parts 1222 connected and disposed to face a pair of inclined side surfaces 344 of the peak part 340, and a pair of inclined side plate parts 1222 connected to each end of the side plate part 1222 and the peak part ( 340) integrally including a pair of lower horizontal plate portions 1223 facing the lower flat surfaces 322 of each of the valley portions 320 located on both sides. The upper horizontal plate part 1221 and the pair of side plate parts 1222 form a trapezoidal concave part accommodating the mountain part 340 .

In addition, the fixing part 124 constitutes the upper part of the bracket 120 , and in this embodiment, as long as it is integrally formed on the upper surface of the upper horizontal plate part 1221 of the seating part 122 and stands vertically. It includes a pair of vertical walls 1242 , 1242 . A horizontal frame 240 of the structure 300 having a rectangular cross section is inserted between the pair of vertical walls 1242 and 1242 . A hole 1243 is formed in each of the pair of vertical walls 1242 and 1242, and a fastener (not shown) passing through the vertical wall 1242 through the hole 1243 (shown in FIG. 1). is fastened to the horizontal frame 240 so that the structure 200 may be fixed to the bracket 120 .

Meanwhile, a through hole 2 allowing the fastener 500 to pass through is formed in the upper horizontal plate portion 1221 .

In addition, the watertight pad 140 is interposed between the seating portion 122 of the bracket 120 and the roof panel 300 . The watertight pad 140 includes a pad hole corresponding to the through hole 2 , and allows the fastener 500 to pass through the through hole 2 through the pad hole. The fastener 500 is fastened to the support frame 400 after passing through the upper horizontal plate part 1221 , the watertight pad 140 , and the roof panel 300 in sequence. At this time, the watertight pad 140 is compressively deformed between the seating portion 122 of the bracket 120 and the roof panel 300 , and the compressively deformed watertight pad 140 has its own pad hole and the The gap between the outer peripheral surfaces of the fastener 500 is sealed in a watertight manner. Since the fastener 500 is fastened to the support frame 400 having rigidity, the watertight pad 1400 may be compressively deformed by a large compressive force.

The fastener 500 includes a head portion 520 and a stem portion 540, and in a state in which the fastener 500 is fully fastened, the head portion 520 is formed on the upper horizontal plate portion 1221. It may be completely accommodated in the set 4 and may not protrude. Accordingly, the horizontal frame 240 of the structure 200 is flat-to-plane on the upper surface of the upper horizontal plate part 1221 even if the head part 520 is located on the upper surface side of the upper horizontal plate part 1221 . may be placed in contact with

According to this embodiment, the fastener 500 is the horizontal plate part 1221 of the seating part 122 of the bracket 120 and the mountain part where water, particularly, rainwater, does not accumulate well among the areas of the roof panel 300 . Since it is configured to penetrate the upper flat surface 342 of the 340, the possibility that water penetrates into the core material of the roof panel 300 through the hole formed in the steel plate of the roof panel 300 by the fastener 500 passing through can significantly reduce In addition, since the watertight pad 140 compressively deformed between the roof panel 300 and the seating portion 122 of the bracket 120 closes the gap around the fastener 500 watertightly, the It is possible to suppress damage to the roof panel 300 .

According to this embodiment, the mounting portion 122 of the bracket 120 includes a pair of inclined side plate portions 1222 disposed to face the pair of inclined side surfaces 344 of the mountain portion 340 and By including a pair of lower horizontal plate parts 1223 connected to each end of the side plate part 1222 and facing the lower flat surfaces 322 of each of the valley parts 320 located on both sides of the mountain part 340 , even before the bracket 120 is fastened to the roof panel 300 , it can be stably maintained without shaking on the roof panel 300 .

According to this embodiment, the stem portion 540 of the fastener 500 includes a threaded portion 542 and an unthreaded portion 544 . At this time, in a state in which the fastening of the fastener 500 is completed, the pad hole of the watertight pad 140 exists in the height section of the non-threaded portion 542 . This allows the smooth inner circumferential surface of the pad hole to come into contact with the smooth outer circumferential surface of the unthreaded portion 542 , thereby more reliably blocking the gap around the fastener 500 .

In addition, according to the present embodiment, the through hole 2 formed in the horizontal plate portion 1221 of the bracket 120 is a horizontal plate portion 122 between the two vertical walls 1242 and 1242 of the fixing portion 124 . A part of the structure that is positioned at and fitted to the two vertical walls 1242 and 1242, in this embodiment, is completely covered by the horizontal frame 240, and the position of these through holes 2 is where water, in particular, rainwater passes through. It further reduces the possibility of penetrating into the roof panel 300 through the hole 2 .

According to the present embodiment, the watertight pad 140 includes an upper horizontal plate portion 1221 of the seating portion 122 , a pair of inclined side plate portions 1222 , and a pair of lower horizontal plate portions 1223 . It is formed in a contiguous shape and size. In addition, the watertight pad 140 is formed to have a larger total area than the area of the region in contact with the upper horizontal plate portion 1221 , the pair of inclined side plate portions 1222 , and the pair of lower horizontal plate portions 1223 . do. This makes a step by compression of the watertight pad 140 between a portion of the watertight pad 140 in contact with the seating portion 122 and a portion not in contact with the seating portion 122 , and by this step , prevents water from entering between the watertight pad 140 and the seating portion 122 .

In addition, further providing a fastener penetrating the lower horizontal plate portion 1223 and the watertight pad 140 to prevent lifting between the lower horizontal plate portion 1223 and the watertight pad 140 can be fixed. have. In this case, it is preferable that a sealing portion for closing the periphery of the hole through which the fastener passes is further formed in the lower horizontal plate portion 1223 .

[Second embodiment]

Figure 3 is a perspective view for explaining the structure connection device on the roof panel according to the second embodiment of the present invention, Figure 4 is a cross-sectional view for explaining the structure connection device shown in Figure 3

3 and 4 , the structure connection device 100 according to the second embodiment is provided on the roof panel 300 so as to be positioned directly above the support frame 400 , the roof panel 300 . For example, integrally including a seating part 122 to be seated on the peak 340 and a fixing part 124 integrally formed on the top of the seating part 122 and to which the horizontal frame 240 of the structure 400 is fixed. It includes a bracket 120 made of a metal material. As in the previous embodiment, the bracket 120 is provided in plurality along the longitudinal direction of the mountain portion 340 .

In addition, the structure connection device 100 includes a watertight pad 140 made of a viscoelastic material, most preferably, a rubber material, interposed between the bracket 120 and the roof panel 300 , and the seating part 122 . and a fastener 500 that passes through the watertight pad 140 and the roof panel 300 in sequence and is fastened to the support frame 400 .

The seating part 122 includes an upper horizontal plate part 1221 formed to correspond to the upper horizontal plane 342 of the mountain part 340 and disposed to face the upper horizontal plane 342 , and the amount of the horizontal plate part 1221 . A pair of inclined side plate portions 1222 connected to a side end and disposed to face a pair of inclined side surfaces 344 of the mountain portion 340, and connected to each end of the side plate portion 1222, the It includes a pair of lower horizontal plate portions 1223 facing the lower flat surfaces 322 of each of the valley portions 320 located on both sides of the mountain portion 340 . The upper horizontal plate part 1221 and the pair of side plate parts 1222 form a trapezoidal concave part accommodating the mountain part 340 .

In addition, the fixing part 124 constitutes the upper part of the bracket 120 , and in this embodiment, as long as it is vertically erected while integrally formed on the upper surface of the upper horizontal plate part 1221 of the seating part 122 . It includes a pair of vertical walls 1242 , 1242 . A horizontal frame 240 of the structure 300 having a rectangular cross section is inserted between the pair of vertical walls 1242 and 1242 . A hole 1243 is formed in each of the pair of vertical walls 1242 and 1242 , and a fastener (not shown) passing through the vertical wall 1242 through the hole 1243 is provided in the horizontal frame 240 . ) so that the structure 200 may be fixed to the bracket 120 .

Meanwhile, a through hole 2 allowing the fastener 500 to pass through is formed in the upper horizontal plate portion 1221 .

In addition, the watertight pad 140 is interposed between the seating portion 122 of the bracket 120 and the roof panel 300 . The watertight pad 140 includes a pad hole corresponding to the through hole 2 , and allows the fastener 500 to pass through the through hole 2 through the pad hole. The fastener 500 is fastened to the support frame 400 after passing through the upper horizontal plate part 1221 , the watertight pad 140 , and the roof panel 300 in sequence. At this time, the watertight pad 140 is compressively deformed between the seating portion 122 of the bracket 120 and the roof panel 300 , and the compressively deformed watertight pad 140 has its own pad hole and the The gap between the outer peripheral surfaces of the fastener 500 is sealed in a watertight manner. Since the fastener 500 is fastened to the support frame 400 having rigidity, the watertight pad 1400 may be compressively deformed by a large compressive force.

The fastener 500 includes a head portion 520 and a stem portion 540, and in a state in which the fastener 500 is fully fastened, the head portion 520 is formed on the upper horizontal plate portion 1221. It may be completely accommodated in the set 4 and may not protrude upward. Accordingly, the horizontal frame 240 of the structure 200 is flat-to-plane on the upper surface of the upper horizontal plate part 1221 even if the head part 520 is located on the upper surface side of the upper horizontal plate part 1221 . may be placed in contact with

As in the previous embodiment, the watertight pad 140 includes an upper horizontal plate portion 1221 of the seating portion 122 , a pair of inclined side plate portions 1222 , and a pair of lower horizontal plate portions 1223 . It is formed in a contiguous shape and size.

In this embodiment, the bracket 120 reinforces the pair of inclined side plate parts 1222 and the pair of lower horizontal plate parts 1223, and at the same time reinforces the lower horizontal plate part 1223 and the watertightness. To prevent lifting between the pads 140 , the horizontal reinforcement part 1251 horizontally extended laterally from the side side of the upper horizontal plate part 1221 and the side end of the horizontal reinforcement part 1251 vertically extend downward. and a reinforcing portion 125 comprising a vertical reinforcing portion 1252 connected to the lower horizontal plate portion 1223 .

In the previous embodiment, since the lower horizontal plate portion 1223 is arranged to press the watertight pad 140 without being reinforced from the upper side, an unwanted bending deformation of the lower horizontal plate portion 1223 may occur, and with it, An undesired gap may occur between the lower horizontal plate unit 1223 and the watertight pad 140 and between the watertight pad 140 and the roof panel 300 in an area directly under the lower horizontal plate unit 1223 .

However, according to this embodiment, a pair of reinforcing parts 125 consisting of a horizontal reinforcing part 1251 and a vertical reinforcing part 1252 includes a pair of inclined side plate parts 1222 and a pair of lower horizontal plate parts ( 1223) and at the same time applying a load to prevent lifting, the watertight pad 140 and the roof in the area between the lower horizontal plate part 1223 and the watertight pad 140 and directly under the lower horizontal plate part 1223 It suppresses the occurrence of unwanted gaps between the panels 300 .

Since the remaining configurations are not significantly different from the previous embodiments, detailed descriptions thereof will be omitted.

[Third embodiment]

5 is a perspective view for explaining a structure connection device on a roof panel according to a third embodiment of the present invention, and FIG. 6 is a cross-sectional view for explaining the structure connection device shown in FIG. 5 .

5 and 6 , the structure connection device 100 according to the third embodiment is provided on the roof panel 300 so as to be positioned directly above the support frame 400 , Includes a seating portion 122 that is seated on the peak 340, and a fixing portion 124 that is coupled to the upper portion of the seating portion 122 by fastening or welding and to which the horizontal frame 240 of the structure 400 is fixed. It includes a bracket 120 that is. In contrast to the brackets of the previous embodiments in which the seating part and the fixing part are integrally formed, the bracket 120 of this embodiment is coupled to each other in a state in which the seating part 122 and the structures constituting the fixing part 124 are separated. is done

The bracket 120 is provided in plurality along the longitudinal direction of the mountain portion 340, as in the previous embodiments.

In addition, the structure connection device 100 includes a watertight pad 140 made of a viscoelastic material, most preferably, a rubber material, interposed between the bracket 120 and the roof panel 300 , and the seating part 122 . and a fastener 500 that passes through the watertight pad 140 and the roof panel 300 in sequence and is fastened to the support frame 400 .

The seating part 122 includes an upper horizontal plate part 1221 formed to correspond to the upper horizontal plane 342 of the mountain part 340 and disposed to face the upper horizontal plane 342 , and the amount of the horizontal plate part 1221 . A pair of inclined side plate portions 1222 connected to a side end and disposed to face a pair of inclined side surfaces 344 of the mountain portion 340, and connected to each end of the side plate portion 1222, the It includes a pair of lower horizontal plate portions 1223 facing the lower flat surfaces 322 of each of the valley portions 320 located on both sides of the mountain portion 340 . The upper horizontal plate part 1221 and the pair of side plate parts 1222 form a trapezoidal concave part accommodating the mountain part 340 .

In addition, the fixing part 124 constitutes the upper part of the bracket 120 , and in this embodiment, the base coupled to the upper surface of the upper horizontal plate part 1221 of the seating part 122 by fastening or welding. As long as the plate 1246 and the pair of vertical wall portions 1247 and 1247 and the pair of vertical wall portions 1247 and 1247 are formed under each of the lower portions and are coupled to the base plate 1246 by fastening or welding. A pair of angles consisting of a pair of horizontal wall portions (1248, 1248) is included.

A horizontal frame 240 of the structure 300 having a rectangular cross section is inserted between the pair of vertical wall portions 1247 and 1247 . A hole 1243 is formed in each of the pair of vertical wall portions 1247 and 1247 , and a fastener (not shown) penetrating the vertical wall portion 1242 through the hole 1243 is provided with the horizontal frame. It is fastened to 240 so that the structure 200 may be fixed to the bracket 120 .

Meanwhile, a through hole allowing the fastener 500 to pass is formed in the upper horizontal plate portion 1221 . In addition, a hole 1249 is formed in the base plate 1246 to correspond to the through hole and has a larger size than the through hole, and the fastener 500 is formed in the hole 1249 formed in the base plate 1246 . ) of the head portion 520 is accommodated.

As in the previous embodiment, the watertight pad 140 is interposed between the seating portion 122 of the bracket 120 and the roof panel 300 . The watertight pad 140 includes a pad hole corresponding to the through hole, and allows the fastener 500 to pass through the through hole through the pad hole. The fastener 500 passes through the base plate 1246 , the upper horizontal plate part 1221 , the watertight pad 140 , and the roof panel 300 in sequence, and then is fastened to the support frame 400 .

At this time, the watertight pad 140 is compressively deformed between the seating portion 122 of the bracket 120 and the roof panel 300 , and the compressively deformed watertight pad 140 has its own pad hole and the The gap between the outer peripheral surfaces of the fastener 500 is sealed in a watertight manner. Since the fastener 500 is fastened to the support frame 400 having rigidity, the watertight pad 1400 may be compressively deformed by a large compressive force.

In addition, the base plate 1246 is configured to cover the entire or at least a portion of the outer edge of the seating portion of the bracket 120 or the outer edge of the watertight pad 140 , so that the outer edge or the outer edge of the seating portion of the bracket 120 . Penetration of water, particularly, rainwater, through the outer edge of the watertight pad 140 can be further reduced.

Since the remaining configurations are not significantly different from the previous embodiments, detailed descriptions thereof will be omitted.

120: bracket 122: seating part
124: fixing unit 140: watertight pad
200: structure 300: roof panel
400: support frame 500: fastener

Claims (3)

Roof panel 300 supported by supporting frames 400 - The roof panel 300 is made by inserting or injecting a core material between steel sheets, and the upper surface of the roof panel 300 is in the front and rear longitudinal direction. It includes a plurality of elongated valleys 320 and a plurality of peaks 340, wherein the valleys 320 and the peaks 340 are alternately arranged along the longitudinal direction. As a structure connecting device on the roof panel, which is connected to the roof panel (300),
A seating part 122 provided on the roof panel 300 to be positioned directly above the support frame 400 and mounted on the peak 340 of the roof panel 300, and the seating part 122 Bracket 120 provided on the upper portion of the structure 200 including a fixing portion 124 to which a part is fixed;
a watertight pad 140 made of a viscoelastic material interposed between the seating part 122 and the roof panel 300;
and a fastener 500 that passes through the seating portion 122, the watertight pad 140, and the roof panel 300 in sequence and is fastened to the support frame 400,
The seating part 122 is connected to both side ends of the upper horizontal plate part 1221 formed to correspond to the upper horizontal surface 342 of the mountain part 340, and the upper horizontal plate part 1221, and is one of the peak parts 340. A pair of inclined side plate portions 1222 corresponding to the pair of inclined side surfaces 344, and valley portions 320 connected to each end of the side plate portion 1222 and located on both sides of the mountain portion 340 Each lower flat surface 322 and a pair of corresponding lower horizontal plate portion 1223 integrally included,
A through hole 2 is formed in the upper horizontal plate part 1221 to allow the fastener 500 to pass through, but is covered by a part of the structure 200 , and the watertight pad 140 is, A gap between the inner circumferential surface of the pad hole formed in the watertight pad 140 by penetration of the fastener 500 and the outer circumferential surface of the fastener 500 by compression deformation between the seating portion 122 and the roof panel 300 . hermetically sealed,
The bracket 120 reinforces the pair of side plate parts 1222 and the pair of lower horizontal plate parts 1223 , and is lifted between the lower horizontal plate part 1223 and the watertight pad 140 . The horizontal reinforcement 1251 horizontally extended laterally from the side of the upper horizontal plate part 1221 and the lower horizontal plate part 1223 vertically extending downward from the side end of the horizontal reinforcement part 1251 to prevent ) and the structure connection device on the roof panel, characterized in that it further comprises a reinforcement part 125 consisting of a vertical reinforcement part 1252 connected. delete The method according to claim 1, The fixing portion 124, the base plate 1246 coupled to the upper surface of the upper horizontal plate portion 1221 by fastening or welding, a pair of vertical wall portions (1247, 1247) and the one a pair of angles formed under each of the pair of vertical wall parts 1247 and 1247 and comprising a pair of horizontal wall parts 1248 and 1248 coupled to the base plate 1246 by fastening or welding; The base plate 1246 covers the whole or at least a part of the outer edge of the mounting part 122 or the outer edge of the watertight pad 140 .

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