KR20100004501A - Steel grating and method for manufacturing thereof - Google Patents

Abstract

PURPOSE: A steel grating and a manufacturing method thereof are provided to improve the strength of a steel plate and prevent the walk of pedestrian from being interfered. CONSTITUTION: A steel grating(1) comprises a steel plate(10), a crossbar(20), and a rectangular frame(30). The steel plate is bent in a zigzag shape and a plurality of ridges and grooves are formed. A plurality of drain holes(14) are formed on an incline connecting the ridges and grooves in the steel plate. The crossbar is inserted into a drain hole. The rectangular frame is welded at both ends of the crossbar.

Description

Steel grating and its manufacturing method {STEEL GRATING AND METHOD FOR MANUFACTURING THEREOF}

The present invention improves the "steel grating and its manufacturing method" of the Republic of Korea Patent Application No. 10-2008-39639 developed by the applicant, more specifically, after inserting the cross bar in the drain hole of the iron plate bent in a zigzag form And a steel grating for welding both ends of the cross bar to a rectangular frame and welding the perimeter of the drain hole and the cross bar, and a method of manufacturing the same.

Korean Steel Patent Application No. 10-2008-39639 (filed April 29, 2008) of the present applicant, "steel grating and its manufacturing method" is introduced.

The steel grating is bent in a zigzag iron plate, a plurality of hills and valleys are formed on the iron plate, a drainage hole is formed in the inclined portion of the iron plate connecting the hills and valleys, and a plurality of mounting holes are drilled in the hills Mounting holes formed in each of the mounts are arranged in a row in the transverse direction, and a cross-bar disposed in the mounting holes is joined to the iron plate by welding, and the circumference of the iron plate and the amount of cross bars The end is welded to the rectangular frame.

However, the steel grating drilled a mounting hole in the steel plate to mount the cross bar on the iron plate, resulting in a weakening of the steel plate, and the cross bar protruded higher than the hill of the iron plate so that the pedestrian could be caught in the cross bar. There were drawbacks to this.

Therefore, an object of the present invention is to insert a cross bar into the drain hole of the iron plate bent in a zigzag form, and then weld both ends of the cross bar to the rectangular frame, and weld the periphery of the drain hole and the cross bar, thereby increasing the strength of the iron plate. It is possible to increase, and to provide a steel grating and its manufacturing method does not interfere with the pedestrian walking.

One example of the steel grating according to the present invention for achieving the above object is that the iron plate is bent in a zigzag, a plurality of hills and valleys are formed on the iron plate, a plurality of drainage holes in the slope of the iron plate connecting the hills and valleys And a cross bar is fitted into the drain hole, both ends of the cross bar are welded to the rectangular frame, and the circumference and the cross bar of the drain hole are welded.

The steel grating further includes flat iron disposed under the iron plate, and both ends of the flat iron are welded to the rectangular frame, so that the flat iron supports the valleys of the iron plate.

When the steel grating according to the present invention is seated on the seating part of the drainage passage, a bent portion having a "∧" shape consisting of a hill and an inclined portion on the iron plate is seated at an angle of "∧" shape fixed to the seating portion of the drainage passage. In the structure in which the bolt is fastened to the nut welded to the bolt hole through the drain hole formed in the inclined portion and the bolt hole of the angle, the iron plate is fixed to the angle, the angle is seated spaced apart by the thickness of the square frame in the vertical plane of the seating portion It is fixed to the horizontal surface of the part, characterized in that the rectangular frame is fitted between the vertical surface of the angle and the seating portion.

The method of manufacturing steel grating according to the present invention comprises the first step of drilling a plurality of drainage holes in the form of a grid on a square iron plate,

The second step of zigzag bending between the drainage holes to form valleys of 1, 3, ... 2n + 1 rows (general numbers) and 2, 4, .... 2n rows of steel plates. Wow,

A third step of inserting a cross-bar into the drainage hole formed in the inclined portion of the steel plate,

And a fourth step of placing the iron plate with the cross bars inserted into the rectangular frame, welding the circumference of the iron plate and both ends of the cross bar to the rectangular frame, and welding the circumference of the drain hole through which the cross bar and the cross bar pass. It is done.

The manufacturing method of the steel grating is characterized in that it further comprises a fifth step of welding both ends of the flat iron to the square frame so that the flat iron is arranged in the lower portion of the iron plate, to support the valley of the iron plate by the flat iron.

Another example of the steel grating according to the present invention is that the iron plate is bent in a zigzag, a plurality of hills and valleys are formed on the iron plate, a plurality of drainage holes are formed in the slope of the iron plate connecting the hills and valleys, the lower part of the iron plate A plurality of first flat iron disposed in the cross is arranged to intersect the valleys of the iron plate, both ends of the first flat iron is welded to the square frame, the first flat iron is to support the valleys of the iron plate, A second flat iron is disposed between the first flat iron, the second flat iron is disposed in the same direction as the peak of the iron plate, and intersects with the first flat iron, so that each second flat iron supports each of the peaks. do.

Thereby, the steel grating according to the present invention and the manufacturing method thereof can increase the strength of the iron plate, the cross bar does not protrude higher than the hill of the iron plate, so that the cross bar does not interfere with the pedestrian's walking, and weakens the strength of the frame. There is no effect.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 and 2, in the steel grating 1 according to the first embodiment of the present invention, the iron plate 10 is bent in a zigzag pattern, and the plurality of peaks 11 and valleys 12 are formed on the iron plate 10. Is formed, a plurality of drainage holes 14 are formed in the inclined portion 13 of the iron plate 10 connecting the hill 11 and the valleys 12, and the cross bars 20 in the drainage holes 14; A cross-bar is fitted, and both ends of the cross bar 20 are welded to the square frame 30, and the perimeter of the drain hole 14 and the cross bar 20 are welded.

Referring to FIG. 3, in addition, the steel grating 1 has a flat iron 40 disposed below the iron plate 1, so that both ends 41 and 42 of the flat iron 40 have a rectangular frame 30. By welding to, the flat iron 40 supports the valleys 12 of the iron plate 10.

4 to 6, when the steel grating 1 is seated on the seating part 51 of the drainage path 50, the steel plate 10 includes a hill 11 and an inclined part 13. The bent portion 15 having the "∧" shape is joined to the "60" shape angle 60 fixed to the seating part 51 of the drainage path 50, and the bolt 65 is formed in the inclined part 13. The iron plate 10 is fixed to the angle 60 by being fastened to the nut 62 welded to the bolt hole 61 through the drain hole 14 and the bolt hole 61 of the angle 60. In this case, as shown in FIG. 6, the angle 60 is horizontally spaced 53 of the seating part 51 so as to be spaced apart from the vertical surface 52 of the seating part 51 by the thickness t of the square frame 30. By being fixed to the square frame 30 can be fitted between the angle 60 and the vertical surface 52 of the seating portion (51).

This is caused by forming a "∧" shaped seating groove of a rectangular frame in the applicant's Korean Patent Application No. 10-2008-39639 (filed April 29, 2008, titled: Steel Grating and Manufacturing Method thereof). The weakening of the rectangular frame can be prevented.

Alternatively, tap the bolt hole 61 without the nut 62 to fasten the bolt 61 directly to the bolt hole 61 or rivet or band instead of the bolt 65 and the nut 62. It is possible to couple the angle 60 to the iron plate 10 by a coupling means such as.

7 to 11, the manufacturing method of the steel grating configured as described above is as follows.

As shown in FIG. 7, a plurality of drainage holes 14 are drilled in a grid shape on the square plate 10 (first step).

Then, as shown in Figs. 7 and 8, in the iron plate 10, the columns 11, 2, 4, .... In order to form 2n rows of valleys 12, the drain holes 14 are bent in a zigzag form (second step). Thereby, the drain hole 14 is arrange | positioned in the inclined part 13 which connects the peak part 11 and the valley part 12. FIG.

Thereafter, as shown in FIG. 9, a cross bar 20 (cross-bar) is inserted into the drainage hole 14 formed in the inclined portion 13 of the iron plate 10 (third step).

Thereafter, as shown in FIG. 10, the iron plate 10 having the cross bars 20 inserted therein is inserted into the rectangular frame 30, and the circumference of the iron plate 10 and both ends of the cross bars 20 are square frame 30. ), And the circumference of the drain hole 14 through which the cross bar 20 and the cross bar 20 pass (a fourth step).

Thereafter, as shown in FIG. 11, the flat iron 40 is disposed below the iron plate 10 as necessary, so that the valley 12 of the iron plate 10 is supported by the flat iron 40. Both ends 41 and 42 of 40 are welded to the square frame 30 (fifth step).

12 to 14, in the steel grating 100 according to the second embodiment of the present invention, the iron plate 110 is bent in a zigzag, and the plurality of peaks 111 and valleys 112 are formed on the iron plate 110. Is formed, and a plurality of drain holes 114 are formed in the inclined portion 113 of the iron plate 110 connecting the hill 111 and the valley 112, and the plurality of agents disposed under the iron plate 110. The first flat iron 120 is disposed to intersect with the valley portion 112 of the iron plate 110, so that both ends 121 and 122 of the first flat iron 120 are welded to the square frame 130. 120 is to support the valley portion 112 of the iron plate 110, the second flat iron 140 is disposed between the peak portion 111 and the first flat iron 120 of the iron plate 110, the second Since the flat iron 140 is disposed in the same direction as the peak 111 of the iron plate 110 and intersects with the first flat iron 120, each second flat iron 140 supports each peak 111. .

In the steel grating according to the second embodiment of the present invention configured as described above, each of the second flat iron 140 supports the peaks 111 of the iron plate 110, thereby preventing deformation of the peaks, and according to the present invention. The structure of the steel grating according to the first embodiment of the has a more robust advantage.

1 is a perspective view showing a steel grating according to the first embodiment of the present invention

FIG. 2 is an exploded perspective view illustrating an example in which a cross bar is fitted to the iron plate of FIG. 1. FIG.

3 is a cross-sectional view taken along line A-A of FIG. 1 showing an example in which flat iron is mounted on steel grating.

Figure 4 is an exploded perspective view showing a state in which the steel grating according to the invention is mounted on the seating portion of the drainage

5 is a cross-sectional view taken along line B-B of FIG. 4 showing a state in which the steel grating according to the present invention is mounted on the seating portion of the drainage passage.

6 is a cross-sectional view taken along line C-C of FIG. 4 showing a state in which the steel grating according to the present invention is mounted on the seating portion of the drainage passage.

7 to 11 is a process chart showing a manufacturing process of the steel grating according to the present invention

12 is a perspective view showing a steel grating according to the second embodiment of the present invention.

FIG. 13 is a perspective view illustrating an example in which the first and second flat irons are mounted on the iron plate of FIG. 12.

14 is a cross-sectional view taken along line B-B of FIG. 12.

Claims (6)

The iron plate 10 is bent in a zigzag, and a plurality of peaks 11 and valleys 12 are formed on the iron plate 10, and the inclined portion of the iron plate 10 connecting the peaks 11 and the valleys 12 ( 13, a plurality of drain holes 14 are formed, cross bars 20 are inserted into the drain holes 14, and both ends of the cross bars 20 are fitted to the rectangular frame 30. Welded, the circumference of the drain hole (14) and the cross bar (20) are welded. The method of claim 1, Further comprising a flat iron 40 disposed under the iron plate 1, both ends 41 and 42 of the flat iron 40 is welded to the square frame 30, the flat iron 40 is a steel plate ( 10) Steel grating, characterized in that to support the valley (12). The method of claim 1, An angle of "∧" shape in which the bent portion 15, which is composed of the peak portion 11 and the inclined portion 13 on the iron plate 10 and has a "∧" shape, is fixed to the seating portion 51 of the drainage passage 50. To the nut 62 welded to the bolt hole 61 through the bolt hole 61 of the angle 60 and the drain hole 14 formed in the inclined portion 13, the bolt 65 is seated in the (60) In the structure in which the iron plate 10 is fixed to the angle 60, the angle 60 is spaced apart from the vertical surface 52 of the seating part 51 by a thickness t of the square frame 30. Steel grating, characterized in that the rectangular frame 30 is fitted between the angle 60 and the vertical surface 52 of the seating portion 51 while being fixed to the horizontal surface 53 of the 51. A first step of drilling a plurality of drainage holes 14 in a lattice form on the square plate 10; In the iron plate 10, drainage holes (1), 3 rows, .... 2n + 1 row (general number) of the peaks 11, and 2, 4, ... 2n rows of valleys 12 are formed. 14) a second step of zigzag bending between, A third step of inserting a cross bar 20 into the drain hole 14 formed in the inclined portion 13 of the iron plate 10, The iron plate 10 having the cross bar 20 inserted therein is inserted into the square frame 30, and the circumference of the iron plate 10 and both ends of the cross bar 20 are welded to the square frame 30, and the cross bar 20 is provided. And a fourth step of welding the circumference of the drainage hole 14 through which the cross bar 20 passes. The method of claim 4, wherein The flat iron 40 is disposed below the iron plate 10, and both ends 41 and 42 of the flat iron 40 are squared so that the valley 12 of the iron plate 10 is supported by the flat iron 40. And a fifth step of welding to the frame (30). The iron plate 110 is bent in a zigzag, and a plurality of hills 111 and valleys 112 are formed on the iron plate 110, and the slopes of the iron plate 110 connecting the hills 111 and the valleys 112 ( A plurality of drainage holes 114 are formed in the 113, and the plurality of first flat irons 120 disposed below the iron plate 110 intersect with the valleys 112 of the iron plate 110, so that the first first iron 120 may be intersected. Both ends 121 and 122 of the flat iron 120 are welded to the rectangular frame 130, so that the first flat iron 120 supports the valley 112 of the iron plate 110, and The second flat iron 140 is disposed between the peak 111 and the first flat iron 120, so that the second flat iron 140 is disposed in the same direction as the peak 111 of the iron plate 110, and the first flat iron 140 is disposed. Intersecting with (120), the steel grating characterized in that each second flat iron (140) supports each mountain portion (111).

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