KR200263565Y1 - Drainage structure of incline plane - Google Patents

Abstract

The present invention relates to a slope drainage structure installed along the mountain slope, the structure in which the cover layer 20 is formed on both sides of the 'U' type slope drainage drain 10 is installed to allow the rain on the mountain slope to drain along the slope. To

At one end of the reinforcing plate 30, which is provided on both sides of the inclined surface drain port 10 and has a plurality of partition walls 32 protruding perpendicularly to the upper portion, the one end of the reinforcing plate 30, The clamping piece 33 which is fixed to the inclined surface drain hole 10 with the bolt 37 and the nut 38 through the fastening hole 34 in the state which inserted both upper sides, and the upper part of the clamping piece 33 perpendicularly. A protruding overflow prevention wall 35 is formed, and the other end of the reinforcement plate 30 is formed with a fixing piece 36 which is bent parallel to the ground and has a plurality of fixing holes 39 in the longitudinal direction. The fixing nail 40 is inserted and fixed perpendicularly to the ground through the hole 39, and the lower cover layer 50 is formed on both sides of the inclined side opening 10 and the lower portion of the arched back plate 31, and the arched back plate ( 31) The cover layer 20 is formed on the top.

Description

Slope Drainage Structure {DRAINAGE STRUCTURE OF INCLINE PLANE}

The present invention relates to an inclined drainage drain installed along the mountain slope, more specifically, to secure the slope to the ground to induce a safe drainage of rainwater falling on the mountain slope, to prevent overflow, side It relates to a slope drainage structure for protecting the cover layer of the.

Generally, slope drains are installed on mountain slopes and connected to ridge side openings that collect rainwater that flows down slopes, and are installed on mountain slopes to induce stormwater to road sideways beneath the mountains. Semi-circular or 'U' type pipes made of materials such as synthetic resins are transported to the site and assembled or installed on site.

In the prior art, as shown in Figure 1, after the excavation on the mountain inclined surface to bury the inclined surface drainage 10, and then to fill the soil on both sides of the inclined surface drainage 10 to form a cover layer 20 ridge side opening (not shown) Rainwater collected in the water) was drained through the slope drain 10 to a road side mouth (not shown) below the mountain.

In order to fix the inclined surface drain 10 to the ground firmly, a plurality of fixing nails (not shown) were used to drive the ground.

However, if only the conventional inclined surface drain 10 is used, the soil of the cover layer 20 formed by installing the inclined surface drain 10 and backfilling is eroded by rainwater and flows into the inclined surface drain 10 through the side surface. There was a problem that was blocked.

In particular, when the soil of the cover layer 20 is eroded by a considerable amount of soil, the ground supporting the lower portion of the inclined surface drain port 10 is lost, using a fixing nail (not shown) in the lower portion of the inclined surface drain port 10 on the ground. Even if fixed, the inclined surface drain 10 was often separated from the ground or damaged.

In addition, when the amount of rainwater is large, the rainwater draining into the inclined drainage drain 10 overflows to both sides, and the soil of the cover layer 20 is eroded, so that the inclined drainage drain 10 may be damaged as described above.

The present invention is designed to solve the problems in the prior art as described above, in order to firmly secure the slope drain on the ground, one end is combined with the upper sides of the slope drain, and the other end is firmly fixed to the ground, It is an object of the present invention to provide an inclined drainage structure having a plurality of partition walls to prevent loss of the cover layer on the side of the inclined drainage port and to prevent the rainwater flowing through the inclined drainage drainage. .

1 is a perspective view showing a conventional inclined surface drain.

Figure 2 is a perspective view of the inclined surface drainage structure according to the present invention.

Figure 3 is a front sectional view showing an assembled state of the reinforcing plate constituting the inclined surface drain port of the present invention.

Figure 4 is a perspective view of the reinforcing plate constituting the inclined surface drain port of the present invention.

<Description of Symbols for Major Parts of Drawings>

10: slope drain 20: cover layer

30: reinforcement plate 31: arched back plate

32: bulkhead 33: narrowing

34: fastening hole 35: overflow prevention wall

36: fixing piece 37: bolt

38: nut 39: fixing hole

40: fixed nail 50: lower cover layer

The inclined surface drainage structure of the present invention for achieving the above object, in the structure in which the cover layer 20 is formed on both sides of the 'U' type inclined surface drainage port 10 is installed so that the rainwater on the mountain slope is drained along the inclined surface. In

At one end of the reinforcing plate 30, which is provided on both sides of the inclined surface drain port 10 and has a plurality of partition walls 32 protruding perpendicularly to the upper portion, the one end of the reinforcing plate 30, The clamping piece 33 which is fixed to the inclined surface drain hole 10 with the bolt 37 and the nut 38 through the fastening hole 34 in the state which inserted both upper sides, and perpendicularly to the upper part of the clamping piece 33. A protruding overflow prevention wall 35 is formed, and the other end of the reinforcement plate 30 is formed with a fixing piece 36 which is bent parallel to the ground and has a plurality of fixing holes 39 in the longitudinal direction. The fixing nail 40 is inserted and fixed perpendicularly to the ground through the hole 39, and the lower cover layer 50 is formed on both sides of the inclined side opening 10 and the lower portion of the arched back plate 31, and the arched back plate ( 31) The cover layer 20 is formed on the top.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the present invention.

Figure 2 is a perspective view of the inclined surface drainage structure according to the present invention, Figure 3 is a front sectional view showing the assembled state of the reinforcing plate constituting the inclined surface drainage of the present invention, Figure 4 is a Perspective view.

In the drawings, 10 is a slope drain, 20 is a cover layer, 30 is a reinforcement plate, 31 is an arched ridge, 32 is a partition wall, 33 is a pinched piece, 34 is a fastening hole, 35 is a overflow prevention wall, 36 is a fixed piece, 37 is a bolt, 38 is a nut, 39 is a fixing hole, 40 is a fixing nail, and 50 is a lower cover layer.

The present invention is a structure that is additionally installed in the cover layer 20 on both sides of the inclined surface drain 10 shown in FIG. 1, looking at the difference from the conventional inclined surface drain 10 is a large inclined surface The reinforcing plate 30 is formed to be fixed to the upper end of both sides of the drain port 10 and to secure the inclined surface drain port 10 to the ground, and the upper part of the arched back plate 31 in the middle of the reinforcing plate 30. A plurality of partition walls 32 installed perpendicular to the lower cover layer 50 formed in a space between the inclined surface drain port 10 and the reinforcement plate 30 and a cover layer formed to cover the reinforcement plate 30 ( 20) is formed.

The body of the reinforcing plate 30 constituting the present invention is a quarter of which is provided with a plurality of partition walls 32 formed perpendicular to the inclined surface direction to prevent the cover layer layer 20 from being lost below the inclined surface by rainwater. It is comprised by the cylinder, ie, the arched back plate 31 of an arch shape.

And one end of the reinforcing plate 30, the gripping piece 33 is formed to couple the reinforcing plate 30 to the upper end of both sides of the inclined surface drain port 10, the gripping piece 33, the fastening hole 34 Is formed is inserted through the bolt 37 in the state in which the upper end of both sides of the inclined surface drain port 10 is tightened by a nut 38.

The overflow prevention wall 35 is installed in the upper part of the clamping piece 33 to prevent the rainwater drained by the inclined surface drain port 10 from overflowing to both sides.

The other end of the reinforcing plate 30 is provided with a fixing piece 36 for firmly fixing the inclined surface drain hole 10 coupled to the reinforcing plate 30 by the pinching piece 33 to the ground. The piece 36 is bent parallel to the ground and a fixing hole 39 is formed in the longitudinal direction, and the fixing nail 40 is inserted and fixed perpendicularly to the ground through the fixing hole 39.

On the other hand, the lower cover layer 50 is formed at the lower portion of the arcuate back plate 31 formed between both sides of the inclined side opening 10 and the reinforcement plate 30, and the cover layer 20 is formed in the middle of the partition wall 32 on the upper side of the arcuate back plate 31. ) Is formed.

Hereinafter will be described the operation of the present invention configured as described above.

First, the inclined surface drain hole 10 is firmly fixed to the ground by inserting the fixing nail 40 through the fixing piece 36 in the state in which the inclined surface drain port 10 is coupled by the gripping piece 33 constituting the present invention. do.

And the overflow prevention wall 35 provided on the upper end of the gripping piece 33 prevents rainwater from overflowing to both sides when the rainwater falls to increase the amount of rainwater drained through the inclined surface drain 10, the slope drainage ( 10) prevents the cover layer 20 on the side from being lost.

In addition, the plurality of partitions 32 installed on the upper part of the arched back plate 31 support the cover layer 20 formed therebetween, thereby preventing the cover layer layer 20 from being lost below the inclined surface due to heavy rain. ) Will be safe.

As described in detail above, when using the inclined surface drainage structure of the present invention, the pincer pieces are fixed to the upper end of both sides of the inclined surface drain port and a plurality of fixing nails are nailed to the ground so that the inclined surface drain hole is firmly fixed to the ground. Its durability can be improved, and the overflow prevention wall is formed on both sides of the slope drain to prevent rainwater from overflowing, and the barrier layer on the side of the slope drain is prevented from being lost by a plurality of partitions. There is an effect of significantly improving the durability of.

Claims (1)

In the structure in which the cover layer 20 is formed on both sides of the 'U' type inclined drainage port 10 installed to allow the rainwater on the inclined surface to drain along the inclined surface, At one end of the reinforcing plate 30, which is provided on both sides of the inclined surface drain port 10 and has a plurality of partition walls 32 protruding perpendicularly to the upper portion, the one end of the reinforcing plate 30, The clamping piece 33 which is fixed to the inclined surface drain hole 10 with the bolt 37 and the nut 38 through the fastening hole 34 in the state which inserted both upper sides, and the upper part of the clamping piece 33 perpendicularly. A protruding overflow prevention wall 35 is formed, and the other end of the reinforcement plate 30 is formed with a fixing piece 36 which is bent parallel to the ground and has a plurality of fixing holes 39 in the longitudinal direction. The fixing nail 40 is inserted and fixed perpendicularly to the ground through the hole 39, and the lower cover layer 50 is formed on both sides of the inclined side opening 10 and the lower portion of the arched back plate 31, and the arched back plate ( 31) Slope drainage structure, characterized in that the cover layer 20 is formed on the top.