KR20130000680A - A steel grating located in a high inclined road - Google Patents

Abstract

PURPOSE: A steel grating for an inclined road for treating drainage is provided to increase an open area of the steel grating in a heavy rain by increasing the gaps between fixed bearing bars and movable bearing bars. CONSTITUTION: A steel grating(10) for an inclined road for treating drainage comprises fixed bearing bars(12), upper cross bars(13), movable bearing bars(14), and lower cross bars(15). The fixed bearing bars are arranged inside a square frame(11) to collect rainwater to a drainage way and have through holes. The upper cross bars are coupled to the tops of the fixed bearing bars, and both ends thereof are installed on the inner surface of the square frame. The movable bearing bars are installed in the upper cross bars to be inserted between the fixed bearing bars and have through holes. The lower cross bars are installed in the through holes of the fixed and movable bearing bars and form the spaces between the upper and lower cross bars. The lower cross bars guide the bidirectional movement of the movable bearing bars.

Description

Steel grating located in a high inclined road}

The present invention relates to the steel grating for road drainage treatment of the inclined road so that the water grating is installed on the inclined road to prevent water barriers or vortices from occurring and thus smooth drainage.

Conventional steel grating is a device that induces rainwater from the highest center of the road to the edge of the road so that rainwater flows into the steel grating installed at the inlet.

However, in the mountainous terrain of Korea, road elevations are remarkable, and the general steel grating has many problems. Each year, during the rainy season, many inflows collected into drains flow from high to low at a rapid rate and hit the steel bar's bearing bar.At this time, a water barrier is formed, which bypasses the drain and flows into the lowlands to increase water damage. In particular, the steeper the slope of the road, the faster the collection water flows, so it cannot be dropped by the force of gravity in the drain and becomes excessive. As time passes, more water is collected and continues to flow along the lowlands along the edge of the road. There is a problem that causes.

The present invention has been made to solve the above-mentioned problems of the prior art, it is possible to easily widen the open area of the steel grating to be installed on the inclined road, and to minimize the area that the rain hit the steel grating, It is an object of the present invention to provide a steel grating for road drainage treatment of a slope road, which prevents water barriers or vortices from occurring due to the rainwater flowing into the inside so that smooth drainage occurs.

Means of the present invention for achieving the above object is, a fixed bearing bar is provided at intervals in the interior of the rectangular frame constituting the steel grating, the through-hole is formed at intervals in the transverse direction at the lower portion formed through; An upper cross bar installed at an upper portion of the fixed bearing bar and having both ends installed at an inner surface of the rectangular frame; It is installed in the upper cross bar so as to be interposed between the fixed bearing bar, the through hole is formed along the transverse direction in the upper and lower portions to move in both directions to adjust the distance with the fixed bearing bar through the through hole formed in the upper A movable bearing bar which is possibly installed; It is installed through the through-hole formed in the lower portion of the fixed bearing bar and the mobile bearing bar so that a space is formed between the upper crossbar, while supporting the fixed bearing bar and the mobile bearing bar to guide the bidirectional movement of the mobile bearing bar. Is composed of; both ends are lower crossbars installed on the inner surface of the rectangular frame,

The upper crossbar and the lower crossbar are installed in a rectangular frame in a direction crossing the width of the road so that rainwater flowing along the road surface of the inclined road can be collected in the drainage passage through the space of the upper crossbar and the lower crossbar. It is done.

Further other means of the present invention for achieving the above object is, in the steel grating of the drainage is installed on the inclined road, it is provided at intervals inside the rectangular frame constituting the steel grating, the transverse direction at the bottom A fixed bearing bar through which the through holes are spaced apart from each other; An upper cross bar installed at an upper portion of the fixed bearing bar and having both ends installed at an inner surface of the rectangular frame; It is installed in the upper cross bar so as to be interposed between the fixed bearing bar, the through hole is formed along the transverse direction in the upper and lower portions to move in both directions to adjust the distance with the fixed bearing bar through the through hole formed in the upper A movable bearing bar which is possibly installed; It is installed through the through-hole formed in the lower portion of the fixed bearing bar and the mobile bearing bar so that a space is formed between the upper crossbar, while supporting the fixed bearing bar and the mobile bearing bar to guide the bidirectional movement of the mobile bearing bar. The upper crossbar and the lower crossbar are configured to be installed on the rectangular frame in a direction crossing the width of the road so that both ends are provided along the road surface of the inclined road. It is to be collected in the drainage passage through the space between the crossbar and the lower crossbar, and the movable bearing bar is divided into a rotating part located at the inlet side of the main body and the steel grating, and the main body and the rotating part are coupled through a hinge. When the rainwater flows into the inside of the steel grating It is characterized in that it is rotated by the additional hydraulic pressure to guide the inflow of rainwater.

Means of the present invention for achieving the above object, in the steel grating of the drainage is installed on the inclined road, fixed bearing bar which is provided at intervals in the interior of the rectangular frame constituting the steel grating; An upper cross bar installed at an upper portion of the fixed bearing bar and having both ends installed at an inner surface of the rectangular frame, wherein the fixed bearing bar is divided into an upper bearing bar and a lower bearing bar positioned below the upper bearing bar. The upper bearing bar is coupled to the upper crossbar in a direction crossing the width of the road while having an inclination angle, and a portion where the upper bearing bar and the lower bearing bar are coupled to each other is installed through the hook to be inside the steel grating. The rain bearing is characterized in that the lower bearing bar is rotated by the hydraulic pressure to guide the inflow of rainwater.

Means of the present invention for achieving the above object, in the steel grating of the drainage is installed on the inclined road, fixed bearing bar which is provided at intervals in the interior of the rectangular frame constituting the steel grating; An upper cross bar installed at an upper portion of the fixed bearing bar and having both ends installed at an inner surface of the rectangular frame, wherein the fixed bearing bar is an upper bearing bar and a lower bearing positioned at a lower portion of the upper bearing bar; The upper bearing bar is formed to be immediately divided, and the upper bearing bar is coupled to the upper crossbar in a direction crossing the width of the road while having an inclination angle, and the upper both sides of the lower bearing bar are provided with a rotating shaft axially coupled to the inner surface of the rectangular frame. When the rainwater flows into the inside of the steel grating, the lower bearing bar is rotated by water pressure to guide the inflow of rainwater.

Means of the present invention for achieving the above object, in the steel grating of the drainage is installed on the inclined road, fixed bearing bar which is provided at intervals in the interior of the rectangular frame constituting the steel grating; It is installed on the top of the fixed bearing bar, consisting of an upper crossbar both ends are installed on the inner surface of the rectangular frame, the upper crossbar is installed on the rectangular frame in a direction crossing the width of the road so as to follow the road surface of the inclined road The rainwater flowing down may pass through the bottom of the upper crossbar to be collected in the drainage passage, and two or more fixed bearing bars selected from the fixed bearing bars may be collected in the drainage drainage flowing down the road surface of the inclined road. It is characterized in that it is bent to have an inclination angle while facing in different directions.

Means of the present invention for achieving the above object, in the steel grating of the drainage is installed on the inclined road, fixed bearing bar which is provided at intervals in the interior of the rectangular frame constituting the steel grating; It is installed on the top of the fixed bearing bar, consisting of an upper crossbar both ends are installed on the inner surface of the rectangular frame, the upper crossbar is installed on the rectangular frame in a direction crossing the width of the road so as to follow the road surface of the inclined road The flowing rainwater can pass through the bottom of the upper crossbar to be collected in the drainage passage, and a tube is rotatably mounted on the outer periphery of the upper crossbar so that the tube is rotated by the hydraulic pressure of the raindrop so that the foreign matter falls into the drainage passage. It is characterized by one.

According to the steel grating for road drainage treatment of the inclined road according to the present invention, when the rainy season or heavy rains pour, the moving bearing bar of the steel grating installed on the inclined road is in close contact with the fixed bearing bar side so that the distance between the fixed bearing bar and the moving bearing bar is wide. Since the open area of the steel grating is widened, the rainwater flowing into the steel grating is bumped into the water barrier so that no water barrier or vortex occurs and thus smooth drainage can be achieved.

In addition, by combining the upper crossbar and the lower crossbar for fixing the fixed bearing bar and the mobile bearing bar to the steel grating so as to be spaced apart in the vertical direction, the rainwater flowing into the steel grating and the upper crossbar There is an effect that can be smoothly collected in the drain through the space of the lower crossbar.

In addition, when rainwater enters the inside of the steel grating, the moving bearing bar is rotated while contracting the elastic restoring member under the pressure of the rainwater, and thus the opening area of the steel grating becomes wider, so that the rainwater does not hit the fixed bearing bar and the moving bearing bar, and thus it is smooth in the drainage path. There is an effect that can be collected and drained.

In addition, since the fixed bearing bar has an inclination angle to the steel grating and a part thereof is rotatably coupled, while the rainwater smoothly flows into the steel grating, the part of the fixed bearing bar is rotated to widen the open area of the steel grating. Rainwater is smoothly collected in the drainage has an effect that can be drained.

In addition, when the rainwater flowing down the road surface of the inclined road hits the adjustment spacer by rotatably mounting the adjustment spacer on the upper crossbar, the adjustment spacer is rotated in place at the upper crossbar by the water pressure of the rainwater and mixed with the rainwater. By preventing the pinch between the rectangular frame and the upper crossbar and the fixed bearing bar, there is an effect that can be drained smoothly.

1 is a perspective view showing a partially disassembled state of the steel grating for road drainage treatment of the inclined road according to the first embodiment of the present invention.
Figure 2 is a plan view showing the steel grating for road drainage treatment of the inclined road according to the first embodiment of the present invention.
Figure 3 is a perspective view showing the operating state of the steel grating for road drainage treatment of the inclined road according to the first embodiment of the present invention.
4 is a cross-sectional view showing an installation state of the steel grating for road drainage treatment of the inclined road according to the first embodiment of the present invention.
5 is a plan view showing an embodiment of the steel grating for road drainage treatment of the inclined road according to the second embodiment of the present invention.
6 is a plan view showing an operating state of the steel grating for road surface drainage treatment of the inclined road according to the second embodiment of the present invention.
7 is a cross-sectional view of the steel grating for road drainage treatment of the inclined road according to the third embodiment of the present invention.
8 is a cross-sectional view of the steel grating for road drainage treatment of the inclined road according to the fourth embodiment of the present invention.
9 is a plan view of the steel grating for road surface drainage treatment of a slope road according to a fifth embodiment of the present invention.
10 is a perspective view of a steel grating for road drainage treatment of a slope road according to a sixth embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be more apparent.

≪ Example 1 >

1 is a perspective view showing a partially disassembled state of the steel grating for road drainage treatment of the inclined road according to the first embodiment of the present invention, Figure 2 is a road drainage treatment of the slope road according to the first embodiment of the present invention 3 is a plan view showing the steel grating, Figure 3 is a perspective view showing the operating state of the steel grating for road drainage treatment of the inclined road according to the first embodiment of the present invention, Figure 4 is a first embodiment of the present invention It is sectional drawing which shows the installation state of the steel grating for road surface drainage treatment of a slope road.

As shown in Figures 1 to 4, the steel grating for road drainage treatment of the inclined road according to the present invention is fixed bearing bar 12, the upper crossbar 13, the moving bearing bar 14, the lower crossbar It consists of 15 pieces.

The fixed bearing bar 12 is disposed at intervals inside the rectangular frame 11 constituting the steel grating 10 so that the rainwater 3 can be collected in the drainage path 2, and both ends thereof are square box 11. It is coupled to the inner wall of the through welding.

In addition, the fixed bearing bar 12 is formed through the through holes 12a at intervals along the transverse direction at the bottom, and is provided with a lower cross bar 15 to be described later.

The upper crossbar 13 is coupled to the upper portion of the fixed bearing bar 12 by press welding, and is mounted and coupled to the through hole 14a formed at the upper portion of the movable bearing bar 14 to fix the fixed bearing bar 12. And guides the bidirectional movement of the movable bearing bar 14 while stably supporting the movable bearing bar 14, and the upper crossbar 13 is coupled to the inner wall of the rectangular frame 11 by welding at both ends thereof. .

The movable bearing bar 14 is installed in the upper crossbar 13 so as to be interposed between the fixed bearing bar 12, and a through hole 14a is formed along the transverse direction in the upper and lower portions thereof, and formed in the upper portion. It is installed to be movable in both directions to adjust the distance to the fixed bearing bar 12 through the through hole 14a.

The lower crossbar 15 is installed through the through holes 12a and 14a formed under the fixed bearing bar 12 and the movable bearing bar 14 so that a space is formed between the upper crossbar 13 and the lower crossbar 15. In addition, while stably supporting the fixed bearing bar 12 and the moving bearing bar 14 together with the upper crossbar 13, the bidirectional movement of the moving bearing bar 14 is guided, and the lower crossbar 15 is Both ends are coupled to the inner wall of the rectangular frame 11 by welding.

In addition, the upper crossbar 13 and the lower crossbar 15 flows along the road surface of the inclined road 1 as it is disposed and installed in the square frame 11 in a direction crossing the width of the road 1 ( 3) may be smoothly collected in the drainage passage 2 through the space of the upper crossbar 13 and the lower crossbar 15.

In addition, when the upper crossbar 13 is installed in the through hole 14a of the fixed bearing bar 12 and the moving bearing bar 14, the adjustment spacer 16 is mounted on the outer circumference of the upper crossbar 13 to move. The movement of the bearing bar 14 can be prevented.

The adjusting spacer 16 is hollow and has an open arch shape so as to be mounted in a detachable structure on the outer circumference of the upper crossbar 13.

For example, normally, the mobile bearing bar 14 is arranged as shown in FIG. 2, and when the rainy season or heavy rain pours, the mobile bearing bar 14 is fixed to the side of the fixed bearing bar 12 as shown in FIG. 3. As the gap between the bearing bar 12 and the moving bearing bar 14 is widened so that the opening area of the steel grating 10 is widened, the rainwater 3 flowing down the road surface of the inclined road 1 is fixed bearing. Without hitting the bar 12 and the moving bearing bar 14, it can be smoothly collected and drained in the drainage passage 2, and the adjustment spacer 16 is mounted on the outer periphery of the upper crossbar 13, It is possible to prevent the flow of the moving bearing bar 14 by the strong flow velocity or other external impact of 3) to continuously drain the rainwater (3) smoothly.

And, as shown in Figure 2 and 3, the movable bearing bar 14 is divided into two so that only a portion of the rain grate is introduced into the steel grating 10 to move the open area of the steel grating 10 is wide Although not shown in the drawing, the movable bearing bar 14 is formed in a unitary structure instead of a structure divided into two, so that the entire part is moved instead of a part to open the steel grating 10. You can also adjust the area to be larger.

<Example 2>

5 is a plan view showing an embodiment of the steel grating for road drainage treatment of the inclined road according to the second embodiment of the present invention, Figure 6 is a road drainage treatment of the inclined road according to the second embodiment of the present invention It is a top view which shows the operating state of steel grating.

5 and 6, the steel grating for road drainage treatment of the inclined road according to the present invention has a fixed bearing bar 12, an upper crossbar 13, a moving bearing bar 14, and a lower crossbar. It consists of (15), the configuration of the fixed bearing bar 12, the upper crossbar 13, the movable bearing bar 14 and the lower crossbar 15 is the same as the configuration of the first embodiment detailed description Are omitted and only the differences are explained here.

The moving bearing bar 14 constituting the steel grating for road drainage treatment of the inclined road according to the present invention has a rotating part 14-2 having a main body 14-1 and an end thereof located at the inlet side of the steel grating 10. The main body 14-1 and the pivoting part 14-2 are coupled to each other through the hinge 18, and the upper side is fixed between the fixed bearing bar 12 and the movable bearing bar 14. The rotating part rotated by the hydraulic pressure of the rainwater 3 further includes an elastic restoring member 17 installed on the upper crossbar 13 and the lower crossbar 15 through a through hole 17a formed in the lower portion ( By restoring 14-2), the distance between the fixed bearing bar 12 and the moving bearing bar 14 can be adjusted automatically.

For example, when rainy season or heavy rain pours rainwater 3 flowing down the road surface of the inclined road 1 flows between the fixed bearing bar 12 and the moving bearing bar 14, the moving bearing bar 14 The rotating portions 14-2 are rotated in opposite directions while contracting the elastic restoring member 17 by the pressure of rainwater. As a result, the gap between the pivot 14-2 and the fixed bearing 12 is increased, and as a result, the opening area of the steel grating 10 is widened, so that the rainwater 3 is fixed with the fixed bearing bar 12 and the movable bearing bar. (14) can be guided to be smoothly collected and drained to the drainage path (2) without hitting, and when the amount of rainwater (3) is reduced and the water pressure is weakened, the rotating part (14-2) of the moving bearing bar 14 is elastic While automatically restoring to the original position by the restoring member 17, the elastic restoring member 17 may be applied with a known leaf spring.

In addition, the rotation angle of the pivot 14-2 may be easily introduced into the steel grating even if only about 5 ° rotation.

In addition, the movable bearing bar 14 is divided into two, as shown in Figures 5 and 6, the hinge 18 is installed on the divided portion only a portion where rainwater flows into the steel grating 10 By being rotated, the opening area of the steel grating 10 may be adjusted to be widened, and although not shown in the drawing, the movable bearing bar 14 is integrally formed instead of being divided into two, and the movable bearing bar ( The hinge 18 is installed on the portion of the movable bearing bar 14 positioned between the rectangular frame 11 and the elastic restoring member 17 of the transverse length of the cross section 14 so that the opening area of the steel grating 10 is widened. You may be able to adjust it.

<Example 3>

7 is a cross-sectional view of the steel grating for road drainage treatment of the inclined road according to the third embodiment of the present invention.

As shown in FIG. 7, the steel grating for road surface treatment of the inclined road according to the present invention includes a fixed bearing bar 12 and an upper cross bar 13.

The fixed bearing bar 12 is disposed at intervals inside the rectangular frame 11 constituting the steel grating 10 so that the rainwater 3 can be collected in the drainage path 2, and both ends thereof are square box 11. It is coupled to the inner wall of the through welding.

In addition, the fixed bearing bar 12 is formed through the through holes 12a at intervals along the transverse direction at the top, and is provided with an upper cross bar 13 to be described later.

The upper crossbar 13 is coupled to the upper portion of the fixed bearing bar 12 by press welding to stably support the fixed bearing bar 12, and the upper crossbar 13 has both ends of the rectangular frame 11. Is installed on the inner surface.

The fixed bearing bar 12 is divided into an upper bearing bar 12-1 and a lower bearing bar 12-2 positioned below the upper bearing bar 12-1. Here, the upper bearing bar 12-1 is coupled to the upper crossbar 13 in a direction crossing the width of the road while having an inclination angle, and the rainwater 3 flowing down along the road surface of the inclined road 1 has an upper portion. Do not hit the bearing bar (12-1) to guide the rainwater to smoothly flow into the interior of the steel grating (10).

In addition, the portion where the upper bearing bar 12-1 and the lower bearing bar 12-2 are coupled to each other is installed through the ring-shaped or ring-shaped hook 19 to be excellent inside the steel grating 10. As the lower bearing bar 12-2 is rotated by rainwater when the inflow is increased, the interval with another lower bearing bar 12-2 installed in the square frame 11 becomes wider, so that the rainwater flows smoothly (2). ) Can be collected and drained.

<Example 4>

8 is a cross-sectional view of the steel grating for road drainage treatment of the inclined road according to the fourth embodiment of the present invention.

As shown in FIG. 8, the steel grating for road surface treatment of the inclined road according to the present invention includes a fixed bearing bar 12 and an upper cross bar 13.

The fixed bearing bar 12 is disposed at intervals inside the rectangular frame 11 constituting the steel grating 10 so that the rainwater 3 can be collected in the drainage path 2, and both ends thereof are square box 11. It is coupled to the inner wall of the through welding.

The upper crossbar 13 is coupled to the upper portion of the fixed bearing bar 12 by press welding to stably support the fixed bearing bar 12, and the upper crossbar 13 has both ends of the rectangular frame 11. Is installed on the inner surface.

The fixed bearing bar 12 is divided into an upper bearing bar 12-1 and a lower bearing bar 12-2 disposed at a lower portion of the upper bearing bar 12-1. Here, the upper bearing bar 12-1 is coupled to the upper crossbar 13 in a direction crossing the width of the road while having an inclination angle, and the rainwater 3 flowing down along the road surface of the inclined road 1 has an upper portion. Do not hit the bearing bar (12-1) to guide the rainwater to smoothly flow into the interior of the steel grating (10).

In addition, the upper both side surfaces of the lower bearing bar (12-2) is to be provided with a rotary shaft 20 which is axially coupled to the inner surface of the square frame (11). Accordingly, when the rain 3 is introduced into the steel grating 10, the lower bearing bar 12-2 is rotated by the rain, so that the lower bearing bar 12 is installed in the square frame 11. -2) can be widened so that the rainwater (3) is more smoothly collected in the drain (2) can be drained.

<Example 5>

9 is a plan view of the steel grating for road drainage treatment of the inclined road according to the fifth embodiment of the present invention.

As shown in FIG. 9, the steel grating for road surface treatment of the inclined road according to the present invention includes a fixed bearing bar 12 and an upper cross bar 13.

The fixed bearing bar 12 is disposed at intervals inside the rectangular frame 11 constituting the steel grating 10 so that the rainwater 3 can be collected in the drainage passage 2, and along the transverse direction at the bottom thereof. The through holes 12a are formed at intervals, and both ends thereof are coupled to the inner wall surface of the square frame 11 by welding. At this time, when a part of the two or more fixed bearing bar 12 selected from the fixed bearing bar 12 will be described in more detail, the portion of the steel grating 10 where the rainwater is introduced is another fixed bearing bar 12. (3) which flows along the road surface of the inclined road as it is bent to have an inclination angle with each other in a different direction with the gap between them to increase the open area of the steel grating 10. Without hitting the fixed bearing bar 12 can be smoothly collected in the drainage path 2 to guide the drain.

The upper crossbar 13 is coupled to the upper portion of the fixed bearing bar 12 by press welding to stably support the fixed bearing bar 12, and the upper crossbar 13 has both ends of the rectangular frame 11. Is installed on the inner surface.

In addition, as the upper crossbar 13 is disposed on the rectangular frame 11 in a direction crossing the width of the road 1, the rainwater 3 flowing down along the road surface of the inclined road 1 has the upper crossbar. It can be made to flow smoothly into the drainage path 2 through the bottom of (13).

For example, the upper crossbar 13 is mixed with rainwater flowing into the steel grating 10 by rotatably mounting the tube 30 on the outer circumference, as described in the sixth embodiment and FIG. 10 to be described later. The foreign matter is guided to fall into the drainage passage 2 without being caught between the square frame 11 and the fixed bearing bar 12 and the fixed bearing bar 12 and the upper crossbar 13, so that the open space of the steel grating 10 It is possible to prevent the damage to the water by preventing the clogging, the operation principle of the tube 30 will be described in detail in Example 6 to be described later.

<Example 6>

10 is a perspective view of a steel grating for road drainage treatment of a slope road according to a sixth embodiment of the present invention.

As shown in FIG. 10, the steel grating for road surface treatment of the inclined road according to the present invention includes a fixed bearing bar 12 and an upper cross bar 13.

The fixed bearing bar 12 is disposed at intervals inside the square frame 11 constituting the steel grating 10 so that the rainwater 3 can be collected in the drainage passage 2, and both ends of the fixed bearing bar 12 11) is welded to the inner wall surface.

The upper crossbar 13 is coupled to the upper portion of the fixed bearing bar 12 by press welding to stably support the fixed bearing bar 12, and the upper crossbar 13 has both ends of the rectangular frame 11. Is installed on the inner surface.

In addition, as the upper crossbar 13 is disposed on the rectangular frame 11 in a direction crossing the width of the road 1, the rainwater 3 flowing down along the road surface of the inclined road 1 has the upper crossbar. It can be made to flow smoothly into the drainage path 2 through the bottom of (13).

In addition, the outer periphery of the upper crossbar 13, the tube 30 is rotatably mounted so that foreign matter mixed in the rainwater flowing into the steel grating 10 may be in the rectangular frame 11 and the fixed bearing bar 12. By being guided to fall into the drainage path 2 without being sandwiched between them, the open space of the steel grating 10 is prevented from being blocked, and the water damage can be prevented.

Further supplementing this, when the rainwater 3 flowing down the road surface of the inclined road 1 hits the tube 30, the tube 30 is removed from the upper crossbar 13 by the hydraulic pressure of the rainwater 3. It is possible to smoothly drain the rainwater (3) by allowing the foreign matter mixed in the rainwater to be rotated in place so as to fall into the drainage passage (2) without being caught between the square frame (11) and the fixed bearing bar (12).

For example, as shown in the fifth embodiment and FIG. 9, the fixed bearing bar 12 may have different portions of the steel grating 10 in which rainwater flows in between the other fixed bearing bar 12. Bending process to be inclined to have an inclination angle toward the direction to widen the space between each other, the rainwater (3) flowing down the road surface of the inclined road as the open area of the steel grating 10 is widened is fixed bearing bar 12 It can be guided to be smoothly collected and drained to the drainage path (2) without hitting the).

10: steel grating 11: square frame
12: fixed bearing bar 12a, 14a, 17a: through hole
12-1: Upper bearing bar 12-2: Lower bearing bar
13: upper crossbar 14: moving bearing bar
14-1: main body 14-2: rotating part
15: lower crossbar 16: adjustment spacer
17: elastic restoring member 18: hinge
19: hook 20: axis of rotation
30:

Claims (8)

In the steel grating of the drainage path 2 installed on the inclined road 1,
A fixed bearing bar 12 which is installed at intervals inside the rectangular frame 11 constituting the steel grating 10 and through-holes 12a are formed at intervals in a horizontal direction at a lower portion thereof;
An upper cross bar 13 installed at an upper portion of the fixed bearing bar 12, and both ends of which are installed at an inner surface of the square frame 11;
Is installed in the upper crossbar 13 so as to be interposed between the fixed bearing bar 12, through holes 14a are formed in the upper and lower sides in the transverse direction through the through holes 14a formed in the upper portion. A movable bearing bar 14 installed to be movable in both directions so as to adjust a distance from the fixed bearing bar 12;
It is installed through the through-hole 12a.14a formed in the lower portion of the fixed bearing bar 12 and the movable bearing bar 14 so that a space is formed between the upper crossbar 13 and the fixed bearing bar ( 12) and guides the bi-directional movement of the moving bearing bar 14 while supporting the moving bearing bar 14, both ends are provided with a lower cross bar (15) installed on the inner surface of the square frame (11),
The upper crossbar 13 and the lower crossbar 15 are installed on the square frame 11 in a direction crossing the width of the road 1 so that the rainwater 3 flowing down the road surface of the inclined road 1 is upper part. Steel grating for road surface drainage treatment of inclined roads, characterized in that the water is collected through the space between the crossbars (13) and the lower crossbars (15). The method of claim 1,
An outer circumference of the upper crossbar 13 is further provided with an adjusting spacer 16 mounted to fix the moving bearing bar 14, wherein the adjusting spacer 16 is attached to the outer circumference of the upper crossbar 13. Steel grating for the road surface drainage treatment of the inclined road, characterized in that the hollow shape so that it can be detachably mounted, the lower portion is formed in an arch shape. In the steel grating of the drainage path 2 installed on the inclined road 1,
A fixed bearing bar 12 which is installed at intervals inside the rectangular frame 11 constituting the steel grating 10 and through-holes 12a are formed at intervals in a horizontal direction at a lower portion thereof;
An upper cross bar 13 installed at an upper portion of the fixed bearing bar 12, and both ends of which are installed at an inner surface of the square frame 11;
Is installed in the upper crossbar 13 so as to be interposed between the fixed bearing bar 12, through holes 14a are formed in the upper and lower sides in the transverse direction through the through holes 14a formed in the upper portion. A movable bearing bar 14 installed to be movable in both directions so as to adjust a distance from the fixed bearing bar 12;
It is installed through the through-hole 12a.14a formed in the lower portion of the fixed bearing bar 12 and the movable bearing bar 14 so that a space is formed between the upper crossbar 13 and the fixed bearing bar ( 12) and guides the bi-directional movement of the moving bearing bar 14 while supporting the moving bearing bar 14, both ends are provided with a lower cross bar (15) installed on the inner surface of the square frame (11),
The upper crossbar 13 and the lower crossbar 15 are installed on the square frame 11 in a direction crossing the width of the road 1 so that the rainwater 3 flowing down the road surface of the inclined road 1 is upper part. To be collected in the drainage passage 2 through the space of the crossbar 13 and the lower crossbar 15,
The moving bearing bar 14 is divided into a main body 14-1 and a rotating part 14-2 positioned at the inlet side of the steel grating 10, and the main body 14-1 and the rotating part ( 14-2) is to be coupled through the hinge 18 so that when the rainwater 3 is introduced into the steel grating 10, the rotating portion 14-2 is rotated by hydraulic pressure to guide the inflow of rainwater. Steel grating for road drainage treatment of inclined roads, characterized in that. The method of claim 3,
Between the fixed bearing bar 12 and the movable bearing bar 14 is installed in the upper crossbar 13 and the lower crossbar 15 through the through holes 17a formed in the upper and lower portions, Steel grating for the road surface drainage treatment of the inclined road, characterized in that it is further provided with an elastic restoring member (17) coupled to elastically restore the pivoting portion (14-2) rotated by hydraulic pressure. In the steel grating of the drainage path 2 installed on the inclined road 1,
A fixed bearing bar 12 installed at intervals inside the square frame 11 constituting the steel grating 10;
An upper cross bar 13 installed at an upper portion of the fixed bearing bar 12 and both ends of which are installed on an inner surface of the rectangular frame 11;
The fixed bearing bar 12 is divided into an upper bearing bar 12-1 and a lower bearing bar 12-2 positioned below the upper bearing bar 12-1, and the upper bearing bar 12-1 is coupled to the upper crossbar 13 in the direction crossing the width of the road while having an inclination angle,
The portion where the upper bearing bar 12-1 and the lower bearing bar 12-2 are coupled to each other is installed through the hook 19 so that when the rainwater 3 is introduced into the steel grating 10, the lower portion Steel grating for road surface drainage treatment of a slope road, characterized in that the bearing bar (12-2) is rotated by hydraulic pressure to guide the inflow of rainwater. In the steel grating of the drainage path 2 installed on the inclined road 1,
A fixed bearing bar 12 installed at intervals inside the square frame 11 constituting the steel grating 10;
An upper cross bar 13 installed at an upper portion of the fixed bearing bar 12 and both ends of which are installed at an inner surface of the square frame 11;
The fixed bearing bar 12 is divided into an upper bearing bar 12-1 and a lower bearing bar 12-2 which is spaced apart from the lower side of the upper bearing bar 12-1. The upper bearing bar 12-1 is coupled to the upper crossbar 13 in a direction crossing the width of the road while having an inclination angle,
The upper both side surfaces of the lower bearing bar (12-2) is provided with a rotary shaft 20 is coupled to the inner surface of the square frame 11 so that the rain (3) when the rain (3) flows into the inside of the steel grating (10) Steel grating for road surface drainage treatment of a slope road, characterized in that the bearing bar (12-2) is rotated by hydraulic pressure to guide the inflow of rainwater. In the steel grating of the drainage path 2 installed on the inclined road 1,
A fixed bearing bar 12 installed at intervals inside the square frame 11 constituting the steel grating 10;
An upper cross bar 13 installed at an upper portion of the fixed bearing bar 12 and both ends of which are installed on an inner surface of the rectangular frame 11;
The upper crossbar 13 is installed on the square frame 11 in a direction crossing the width of the road 1 so that the rainwater 3 flowing down the road surface of the inclined road 1 is the bottom surface of the upper crossbar 13. So that it can be collected in the drain (2)
The two or more fixed bearing bars 12 selected from the fixed bearing bars 12 may have different directions so that rainwater 3 flowing down the road surface of the inclined road 1 may be collected in the drainage path 2. Steel grating for road drainage treatment on an inclined road, which is bent to have an inclination angle while facing. In the steel grating of the drainage path 2 installed on the inclined road 1,
A fixed bearing bar 12 installed at intervals inside the square frame 11 constituting the steel grating 10;
An upper cross bar 13 installed at an upper portion of the fixed bearing bar 12 and both ends of which are installed on an inner surface of the rectangular frame 11;
The upper crossbar 13 is installed on the square frame 11 in a direction crossing the width of the road 1 so that the rainwater 3 flowing down the road surface of the inclined road 1 is the bottom surface of the upper crossbar 13. So that it can be collected in the drain (2)
On the outer circumference of the upper crossbar 13, the tube 30 is rotatably mounted so that the tube 30 is rotated by excellent water pressure so that the foreign matter falls to the drainage path 2. Grating for road surface drainage

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