KR101809978B1 - Strike type one body drain structure body for ground and construction method thereof - Google Patents

Abstract

The present invention relates to a strike-type integrated drainage structure for a playing field and a construction method thereof and, more specifically, to a strike-type integrated drainage structure, which is struck and installed along a line formation point of a playing field without excavating a ground layer of a compacted playing field and does not deteriorate the cushioning and drainage performance of the compacted ground layer without requiring a separate excavation and covering process, such that water permeation and drainage are smoothly performed, and to a construction method thereof. The drainage structure, which is constructed in a playing field provided with a ground layer in which a single-layer stratum or a multi-layered stratum for drainage is compacted, comprises: a wedge-shaped drainage container (110) of a single body configured to have a wedge-shaped side sectional shape of a single body to be inserted into the ground layer by a strike, wherein a plurality of punching holes for permeation or drainage of rainwater are arranged on each surface, an upper portion thereof is formed as a load supporting part of an elastic structure to reduce deformation when a load is applied by an external force, and drainage holes are formed at a predetermined interval along the longitudinal edge for vertical drainage on a lower portion thereof; and a perforated drainage pipe (120) installed inside the wedge-shaped drainage container and draining introduced rainwater in one direction or a downward direction.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a striking type integrated drainage structure for a playground,

The present invention relates to a striking type integrated drainage structure for a playground, and more particularly, to an integrated drainage structure for a playground, and more particularly, to an integrated drainage structure for a playground, The present invention also relates to a method of constructing a drain structure and a method of constructing the drain structure.

Generally, the playground is formed with a slight draft at the center during construction, so that rainwater flows in the direction of the edge drainage in rainy weather, and underground engineering layer maintains ground hardness by constructing multilayered aggregate, soil or other materials for strengthening ground hardness and penetration. However, rainfall causes rainwater to penetrate well into the basement.

However, if the rainfall rate of the rainwater permeating into the civil engineering layer is slowed down continuously, a waterway is formed at one point of the lower civil engineering layer or the upper part of the playground, and the soil is leaked. As the sediment drainage continues, a cavity is formed in the soil layer, and a part of the playground is depressed, so that the water in the pond is flooded or flooded, and the playground is damaged.

In order to solve such problems, recently, a technique for constructing a drainage structure capable of storing and discharging rainwater on a civil engineering layer has been disclosed in order to smooth drainage of a playground.

Korean Patent Registration No. 10-1309827 (a playground drainage structure using lines and a construction method thereof) is known as a conventional playground drainage structure technique. This technique can provide an elastic force while maintaining the hardness of the athletic field index as before A drainage layer stacked on top of the existing ground and having a plurality of pores of a predetermined size formed thereon to achieve the drainage structure and the method of constructing the same; A drainage trough embedded in the drainage layer and having a plurality of water holes formed on an outer circumferential surface thereof and a drainage passage formed therein; A lower cushion layer laminated on the drainage layer and the drainage troughs and made of a water permeable and elastic material to provide an elastic force; And a surface layer stacked on the upper portion of the lower cushion layer and exposed to the outside, wherein the drain trough is buried along the line at a lower portion of the line, and the upper surface of the drain trough is located at the same height as the upper surface of the drain layer And a water drainage structure embedded in the drainage layer and having water reaching the drainage layer flows into the drainage trench through the water hole formed on the drainage trench.

However, in order to construct the drainage trench, the conventional embankment has to fill the embankment layer of the lower surface of the ground to a larger area than the drainage trench and fill the space around the drainage trench after installing the drainage trench, There is a structural disadvantage that the compaction operation can not be performed by the pressure applied at the time of initial compaction due to the interference of the installed drainage trough.

Due to such a compaction pressure difference, in the case of rain, a waterway may be formed along the boundary where the compaction pressure of the impregnated water is different, so that there is a structural problem that the outflow of the soil can occur.

Korean Registered Patent Publication No. 10-1309827 (Nov. Korean Patent Registration No. 10-0893363 (Apr. 07, 2009) Korean Patent Registration No. 10-0869292 (November 12, 2008) Korean Patent Publication No. 20-2002-0043461 (Jun. 10, 2002)

It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a cushioning structure for a civil engineering structure, And to provide a striking type integrated drainage structure in which smooth water and drainage can be achieved without deteriorating drainage performance and a method of construction thereof.

It is another object of the present invention to provide a hitting type integrated drainage structure having an improved durability upon application of load due to external force by providing an elastic force by forming an upper shape of a wedge type drainage tank constituting an integrated drainage structure, And to provide a construction method.

Another object of the present invention is to provide a wedge-type drainage tank which has a laterally protruding lateral support member constituting an integral drainage structure and which is capable of maintaining a stable installation state by preventing the upward- An integrated drainage structure and a method of construction thereof.

Another object of the present invention is to provide a striking type integrated drainage structure capable of providing a line display function by itself during construction and a method of construction thereof.

In order to accomplish the above objects and to solve the conventional drawbacks of the present invention, there is provided a metal material or plastic material drainage structure to be installed in a playground provided with a single ground layer or multi- And a plurality of cloth tools for watering or draining rainwater are arranged on each surface, and the upper part is formed by a load applied by an external force A wedge-shaped drainage passage of a single body formed by a load supporting portion of an elastic structure for reducing the deformation of the door, and a lower portion formed with a drainage hole at regular intervals along the longitudinal edge for vertical drainage;

And a drainage pipe installed in the wedge-shaped drainage tank for draining the rainwater flowing in the one direction or the lower direction. BRIEF DESCRIPTION OF THE DRAWINGS FIG.

In a preferred embodiment, the striking type integrated drainage structure for a playground may be configured to have either a long or short length depending on a line form of a playground formed of a straight line or a circle.

In a preferred embodiment, the striking type integrated drainage structure includes a slot for inserting a support into a cloth tool arranged in a plurality of wedge-shaped drainage tanks, an elastic insert inserted into the slot to receive the load of the soil layer, And a support made of a supporting piece projecting outwardly and receiving a load of the soil layer.

In a preferred embodiment, the resilient insertion piece is formed in a symmetrical shape with a locking step formed at each end, and the supporting piece may be formed to have a flat top and a tapered shape toward the bottom.

In a preferred embodiment, the wedge-shaped drainage tube may further comprise a filler charged in the inner space.

In a preferred embodiment, the load supporting part constituting the upper part of the wedge-shaped drain can be formed in an arcuate shape or a square shape with a central part higher than the edge.

The wedge-shaped drainage tank may have a wedge shape from a lower portion to a point height and a vertically extended portion formed vertically from one point to the upper load supporting portion.

In a preferred embodiment, the perforated drain pipe has a structure in which the perforated drain pipe is inserted into a soil layer after being protruded to the outside, a structure in which the perforated drain pipe is connected to a neighboring perforated drain pipe using a connecting member, or a structure in which one perforated drain pipe is connected to a plurality of wedge- And a drain connected to a drainage pipe formed in the drain pipe.

According to a preferred embodiment of the present invention, the wedge-type drainage tank may further include a buffering member provided on an upper surface of the load supporting member.

In a preferred embodiment, a protruding line member or an insertion line member may be formed at a central portion of the buffering permeable member.

According to another aspect of the present invention, there is provided a method of constructing a drainage structure to be installed in a playground where a single stratum for drainage or a multi-layered ground layer is provided,

The method comprising: providing a striking type integral drainage structure for the athletic field;

Placing a batting type integrated drainage structure made of the same or different length depending on a shape of a construction site of a playground line;

Placing a striking hole corresponding to the cross-sectional shape of the load supporting portion on the wedge-shaped drainage tank of the striking type integrated drainage structure positioned in a size fitting with the construction site, and then inserting the striking hole into the soil layer The present invention provides a method of constructing an integrated type drainage structure for a playground.

In a preferred embodiment, the method further includes the step of inserting and installing a support into a slot of a cloth tool at any position among a plurality of cloth tools arranged on each side of the wedge-type drainage box constituting the batter type integral drainage structure can do.

In a preferred embodiment, the method may further include covering the upper portion with the soil layer after striking the soil layer with the impact type integrated drainage structure.

In a preferred embodiment, the step of inserting the striking type integrated drainage structure into the soil layer includes the step of inserting the drainage pipe inserted into the wedge-type drainage tank into the soil layer and then inserting the drainage pipe into the soil layer or the drainage pipe of the wedge- And connecting the plurality of wedge-type drainage tanks to the drainage path formed at the edge of the playground by using the connecting member or connecting the plurality of wedge-shaped drainage tanks to one drainage pipe.

Forming a buffering member on the top surface of the load supporting portion of the wedge-type drainage tank constituting the striking type integrated drainage structure after striking the soil layer with the striking type integrated drainage structure as a preferred embodiment; And forming a line of a playground by forming a protruding line member or an insertable line member on the upper surface of the buffering piercing member.

In a preferred embodiment, when the playground is constructed of natural grass or synthetic grass after the cushioning member is applied, it may further include the step of constructing a grass planting layer around the cushioning piercing member.

[0030] The impact type integrated drainage structure according to the present invention having the above-described features is characterized in that an integrated body is struck at an upper portion along a line formation point of a playground without excavating a civil engineering layer of a multi- It is advantageous that the construction is simple and the smooth watering and draining can be performed without damaging the buffering and draining performance of the soil layer constructed in the first place,

In addition, since the wedge type drainage tube constituting the striking type integrated drainage structure is formed in a high arched or square shape with a central portion thereof being provided with an elastic force, there is an advantage that the deformation is small,

In addition, the impact type integrated drainage structure is supported by the load of the soil after one or more laterally projected lateral supports are installed, thereby preventing the impact type integrated drainage structure from being pushed upward by the lateral earth pressure, With the advantage of.

In addition, since the cushioning member and the cloth or the line member for artificial turf or line are installed on the upper part of the impact type integrated drainage structure,

In addition, it is a useful invention having an advantage that a shape of a playground line to be applied can be selectively applied to a line or a circle according to a length of the batched type integrated drainage structure.

1 is a perspective view of a flush type integrated drainage structure according to an embodiment of the present invention,
FIG. 2 is a perspective view of a striking type integrated drainage structure having a support according to another embodiment of the present invention,
3 is a perspective view of an impact type integrated drainage structure having an upper surface formed in an arcuate shape according to another embodiment of the present invention,
FIG. 4 is a perspective view of a batched type integrated drainage structure having a square top surface according to another embodiment of the present invention, and FIG.
FIG. 5 is a cross-sectional view illustrating a striking type integrated drainage structure having a vertical extension according to another embodiment of the present invention,
6 is a cross-sectional exemplary view of a flush-type integrated drainage structure having a filler according to another embodiment of the present invention,
FIG. 7 is a cross-sectional view illustrating a dam type integrated drainage structure having a cushioning piercing member according to another embodiment of the present invention,
FIG. 8 is a plan view showing a state in which a batting type integrated drainage structure according to an embodiment of the present invention is installed along a playground line,
FIG. 9 is a plan view showing a state in which the batting type integrated drainage structure according to another embodiment of the present invention is installed along a playground line,
FIG. 10 is an exemplary view showing a drainage process through the impact type integrated drainage structure according to an embodiment of the present invention,
11 is a cross-sectional view illustrating a construction sequence of a flush type integrated drainage structure according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a perspective view of a flush type integrated drainage structure according to an embodiment of the present invention, FIG. 2 is a perspective view of a flush type integrated drainage structure having a support according to another embodiment of the present invention, 4 is a perspective view of an impact type integrated drainage structure having a prismatic upper surface formed according to another embodiment of the present invention, and FIG. 5 is a perspective view of the impact type integrated drainage structure having an arcuate upper surface according to another embodiment of the present invention. FIG. 6 is a cross-sectional view illustrating a striking type integrated drainage structure having a vertical extension according to another embodiment of the present invention, FIG. 6 is a cross-sectional view illustrating a striking type integrated drainage structure having a filler according to another embodiment of the present invention, 7 is a cross-sectional exemplary view of a batched integral drainage structure having a cushioning piercing member according to another embodiment of the present invention.

As shown in FIG. 1, the striking type integrated drainage structure 1 of the present invention comprises a single wedge type drainage pipe 110 and a drainage pipe 120 installed therein.

Specifically, the wedge-shaped drainage tube 110 is configured to have a wedge-shaped cross-sectional shape of a single body to be inserted into a civil engineering layer by impact, and a plurality of cloth tools 111 for watering or draining rainwater are arranged on each surface The upper portion is formed by a load supporting portion 112 of an elastic structure for reducing deformation when a load is applied by an external force and the lower portion is formed with a drain hole 113 at regular intervals along the longitudinal edge to drain in the vertical direction do.

The wedge-type water drainage tube 110 has a wedge-shaped cross-sectional shape of a single body having a bottom with a sharp point and widening toward the top, because the wedge- This is because a multi-layer or single-layer compaction soil layer can be directly applied without excavation to construct the drainage trough. If the embankment layer of the lower surface of the existing subsurface soil is excavated over a larger area than the wedge type drainage basin, then after the wedge type drainage tank is installed, the space around the wedge type drainage tank is filled, It is impossible to perform the compaction operation by the applied pressure.

The reason why the wedge type drainage tube 110 is formed as a single body is that it is not only simple to manufacture but also is simple in process. If you have a cover that is not a single body, you must first cover the drainage box with the side section of the "V" by inserting a dedicated jig or other hitting aid and covering it with the cover. If the upper structure is deformed, the cover may not be closed properly, resulting in poor assembly, which may result in deterioration of the quality of the construction and it may take a long time to correct the problem.

However, if it is composed of a single body, there is no problem even if some deformation due to the impact occurs, and since there is no separate dedicated hitting paper at the time of hitting, a wooden plank can be placed on the hull, and it can be easily inserted into the soil layer by pressurization or pressing by a load .

The wedge-type drainage tube 110 made of a single body is made of a metal material or a plastic material having high strength.

The manufacturing method using the metal material can be manufactured by extruding a wedge type drainage box made of a metal material to make a wedge type drainage tube or welding each metal plate. If extrusion is to be performed at once, the cloth tools formed on each surface may be formed by pressing. A method of pressing a cloth tool is to form a cloth tool by inserting a wooden or metal pedestal into the inner space and then drilling it. If the extrusion method is used, it may be produced by cutting the required length after extrusion.

Alternatively, in the case of manufacturing by welding the corners between the metal plate materials, it is preferable to provide a plate material in which a cloth tool is previously formed by press working, to weld the joints between the plate materials, to bend one plate material, . In addition, it can be cut to the required length from the beginning according to the length required for the construction, or one long wedge type drain can be manufactured and cut by a necessary length.

Further, a manufacturing method using a plastic material may be carried out by using extrusion or injection method using a known plastic having high strength and durability. The method of using the extrusion is similar to the method of extruding the metal material, but an edge bonding process between plastic sheets through an adhesive or thermal processing can be used instead of a metal working process such as welding. The method of using the injection has the advantage that the forming of the cloth tool etc. can be performed at a time.

When the wedge type drainage canister is completed in the longitudinal direction by using any one of the above-described manufacturing methods, a hole drainage pipe 120 is installed inside, and both ends of the drainage pipe are protruded to the outside, When the openings on both sides of the drain can be welded with a wedge-shaped plate formed with a cloth tool, the final wedge-type drainage can be completed. Prior to the final welding, pre-work should be performed to penetrate through the drainage pipe to an optional cloth tool located at the lower side of the wedge-shaped plate.

The wedge-type drainage tube 110 may be selectively and variously manufactured, and most importantly, a wedge-shaped drainage tube having a single body for the technical idea of the present invention.

The wedge-shaped drainage basin constructed in a different length from the above may be formed in a long or short shape depending on the shape of the construction site at the time of construction in the playground line (L). For example, the wedge type drainage tank having a short length may be applied to the circular line L or the short straight line L, and the wedge type drainage tank having a long length may be applied to the long straight line L. It goes without saying that the wedge type drainage can also be provided in the straight line having a long length and having a short length arranged at regular intervals according to necessity or selection. Likewise, the circular line can be formed into a circular shape in addition to the wedge type drainage can having a short length that is linearly processed.

The perforated drain pipe may be inserted into the soil layer after being protruded to the outside. Alternatively, the perforated drain pipe may be connected to the neighboring perforated drain pipe by using a connecting member, or may be formed at the edge of a playground by connecting one of the perforated drain pipes to a plurality of wedge- It may be constructed to connect to a drainage channel. The reason for this diversity is that the purpose of installing the striking type integrated drainage structure 1 is to provide a space for quickly storing rainwater during rainfall and to drain rainwater stored thereafter so that the drainage pipe is located in the soil layer, But the water permeation action of the rainwater through the endurance space of the impact type integrated drainage structure 1 is sufficient.

The cloth tool 111 formed in the wedge-type drainage tube 110 may be formed as a circular hole, but the present invention is not limited to this, and it is possible to drill various shapes such as a triangle, a square, Of course it is.

Also, the cloth tools may have the same size. If the size of the cloth tools is different, it is preferable that the cloth tools formed on the upper side are smaller than the perforations on the lower side. The reason for this is that when the rainwater is introduced into the upper part, the lumber and the soil are introduced through the cloth tool to fill the internal space. Therefore, in order to prevent this, a lot of cloth tools are formed, It is good to prevent inflow of inhabitants. It is rather preferable that the cloth tool formed at the lower part is formed to be larger than the perforation formed at the upper part because it acts as a drainage rather than a rainwater. If it is small, the hole may be clogged and the drainage performance may be deteriorated or delayed and bottleneck may occur. Also, since the cloth tools formed at the lower part mainly serve as drainage, the flow direction of the rainwater is made from the inside to the outside direction, and the possibility of the rubble or the soil is less likely to flow into the inside.

The cloth tool 111 may form a slot 1111 for inserting the support in the lateral direction. Such a slot serves to guide the position so as not to rotate when a support member, which will be described later, is inserted in the form of a rectangular groove.

The load supporting portion 112 constituting the upper portion of the wedge-shaped drainage tube 110 is used as a striking point at the time of striking and normally supports a load due to an external force applied from the upper portion, It is preferable that the center portion is formed in an arcuate shape or a square shape higher than the edge so as to provide an elastic force. If it is constructed horizontally, it can be deformed by the excessive or continuous load applied to the bottom. In this case, when the edge is broken, the soil layer that is tangent to the side is formed and the soil layer is collapsed or rainwater intensively flows in the case of rainfall. This is because the surrounding soil is leaked and the construction site is damaged or the pool is damaged and the playground may be damaged.

However, since the line portion of the playground can be protruded if it protrudes too much, the center portion is formed to have a height of 1/50 to 1/4 of the imaginary horizontal plane with respect to the upper width of the wedge- Suffice. The reason for this limitation is that when the height is lower than the lower limit, the elastic force providing force is lower and when the height is higher than the upper limit, rather than the elastic force at the protruding portion, local deformation may occur or the flatness of the playground due to protrusion may occur.

Therefore, the center protruding height in the above-described range can provide the elastic force without substantially protruding to the playground due to the thickness of the cushioning member or the natural or grass planting layer formed on the upper portion of the wedge- When the same external force is applied, the durability is improved because it is resiliently restored without being collapsed in comparison with the case of forming the upper part in a horizontal state.

The load supporting portion 112 may be directly hit when hitting the load supporting portion 112. However, the load supporting portion 112 may be provided with an exclusive dedicated impact hole formed to have a cross-sectional shape conforming to the side cross-sectional shape of the load supporting portion to minimize deformation, It is desirable to strike using a striking device.

A drainage hole (113) formed at regular intervals along the longitudinal edge for drainage in the vertical direction of the wedge-shaped drainage tank (110) is a structure for rapidly discharging the rainwater introduced into the wedge- However, if the distance between the drain holes 113 is too small, the lower portion of the wedge drainage tube 110 may be deformed at the time of hitting, so that the force to charge the ground layer may be lowered. So that the hitting force is not lowered.

The reason why the drainage hole is needed is that the rainwater that is poured into the wedge-shaped drainage tube from the surrounding soil layer during the rainfall is drained through the cloth tool formed in the lower side direction. In this case, The drainage operation may be interrupted and drainage delay may occur. However, this problem can be solved by forming a drain port formed in a downward direction.

That is, the pressure of rainwater pumped into and stored in the wedge-shaped drain can be lower than the inflow of rainwater due to the downward movement, and rainwater flows backward from the lower part of the soil layer to the upper part if not. Further, the drainage can be further improved by placing the lower part of the wedge-shaped drainage tube 110 in a soil layer made of aggregate or the like having good permeability.

The perforated drain pipe (120) is installed inside the wedge-shaped drain tank and is configured to drain the introduced rainwater in one direction or downward direction.

When the bottleneck of the rainwater flow caused by the rubble flowing into the wedge-shaped drainage can occur, the drainage pipe 120 drains the rainwater introduced in the one direction by using the internal space of the drainage pipe or discharges it into the lower soil layer . Such a drainage pipe is configured to be connected to an unshown drainage line. However, even if it is not connected to the drainage line, the influxed rainwater can be stably discharged to the side or lower soil layer while being less affected by rubble or soil.

In addition, preferably, the perforated drain pipe is installed below the wedge-shaped drain pan so that the rainwater permeated by the wedge-shaped drain can be smoothly supplied.

The perforated drain pipe 120 is formed of a flexible synthetic resin material, and a plurality of holes 121 are formed along the perimeter of the perforated drain pipe 120 to allow the rainwater to flow into the interior. If necessary, a nonwoven fabric or the like may be wrapped around the periphery so as to more effectively block the inflow of soil or foreign matter. Of course, it is of course possible to use a hole drain pipe without wrapping the periphery of the nonwoven fabric. The shape or diameter of the through-hole is not limited to the shape and size of the illustrated embodiment, and may be changed into various shapes and sizes not illustrated, provided that it is a shape capable of inflow and drainage of rainwater.

Meanwhile, the striking type integrated drainage structure (1) includes a support body (130) configured to be inserted from a slot of a support insertion slot (1111) formed in a cloth tool formed in the wedge type drainage tank and to receive a load of the soil layer And the like.

The supporting member 130 includes an elastic insertion piece 131 inserted into the slot and a supporting piece 132 protruding outward to receive a load of the soil layer and prevent the wedge- shaped drainage tube from being pushed upward by the earth pressure of the side soil layer. . The material can be composed of a metal material or a synthetic resin material.

The elastic insertion piece 131 is configured to be elastically expanded after being inserted into the slot in a contracted state and supported and fixed on the inner surface of the wedge-shaped drainage tank. The shape of the elastic insertion piece may be a symmetrical configuration in which the latching protrusions 1311 are formed at the respective ends as shown in the drawings. In addition, any shape may be used as long as it can elastically expand the slot at the point where the slot enters the contracted state and end the slot to fix and support the inner side.

The supporting piece 132 is a flat plate configured in a horizontal direction and suffices to receive a large load of the soil layer. When such a support is inserted into the soil layer, when the wedge type drainage tank is subjected to the upward force by the earth pressure of the soil layer applied to the side portion, the lateral earth pressure is overcome due to the load of the upper soil layer acting on the area of the supporting piece, So that the cylinder 110 is continuously inserted into the soil layer.

In addition, when the posterior wedge type drainage pipe is struck with the support piece inserted into the slot, when the pipe is made of a metal material, the angle may be somewhat distorted by the collision with the soil layer. It does not affect the role of the support, including support for thought. It is sufficient that the support can be loaded with the soil layer.

Preferably, the shape of the support piece is a flat shape at the upper portion and a tapered shape toward the lower portion. If the wedge-shaped drainage tube 110 is shaped like this, the wedge-shaped drainage tube 110 is inserted and installed with less insertion load, and the upper surface is flat, so that the load of the soil layer can be increased.

The mounting position and the number of the support members 130 are not limited and may be set anywhere in the support insertion slots 1111 arranged in the wedge-shaped drainage tank as required.

In addition, the wedge-shaped drainage tank may have a wedge shape from the lower part to the one-point height, and a vertical extension part 114 formed vertically from one point to the upper load supporting part 112.

In this case, it is possible to reduce the width of the impacted area on the soil layer and consequently to reduce the construction area, and in addition, the impact force can be improved by transmitting the impact force in the vertical direction at the time of hitting at the upper part.

In addition, the wedge-shaped drainage tank is filled in the inner space to prevent clogging of the inner space due to the inflow of rubble and gravel from the outside, so that the wedge-shaped drainage can move or flow by the water pressure of the rainwater. And a filler 140 for providing a load to prevent the wedge-shaped drainage tube from being pushed and preventing the wedge-shaped drainage tube from being crushed by the earth pressure.

It is preferable that the rubble constituting the filler is in the form of a nodule, so that the gap between the neighboring rubble is large and the shape is good for the permeability and drainage of the rainwater.

Also, the filling material is charged through the lateral direction of the wedge-shaped drainage tube having the opening, and is filled with a lump larger than the diameter of the cloth tool, so that the filling material is not easily released to the outside after the inside loading. It is preferable that the hole is preferably filled with the hole after the hole is positioned at the bottom. Advantages of the hole drainage pipe being located at the bottom are described above, so the same explanation is omitted.

In addition, the filler may be wrapped in a waterproof material nonwoven bag or the like to be charged into the wedge-shaped drainage can.

When the filling of the filler is completed, both side surfaces are welded and finished with the wedge-shaped side plate material, in which cloth tools are formed, as described above. At this time, the hole drain pipe is formed to come out to both sides through an arbitrary cloth tool.

On the other hand, the upper surface of the load supporting portion 112 of the wedge-type drainage tank 110 is covered with a soil layer, and a buffering member 150 may be installed to provide a buffering force. The buffer piercing member is made of a material having water permeability so that rainwater or the like is introduced while providing a buffering force against the load applied at the top. However, it is preferable that the cushioning piercing member 150 is installed after the wedge-shaped drainage tube 110 is struck to the soil layer. Otherwise, the striking force may be reduced in the striking operation, and the cushioning piercing member 150 may be damaged, resulting in deterioration of the construction quality.

In the absence of such a buffering member, when the wedge-type drainage tube 110 is loosed at the boundary surface with the neighboring civil engineering layer, the upper surface of the wedge-shaped drainage tube 110 protrudes, It is possible to secure the safety of the people by providing the buffer piercing member.

The buffer piercing member may be formed of a known water-permeable elastic packaging material having water permeability formed by applying an elastic chip such as a polyurethane chip or a rubber chip with various binders including polyurethane, or forming fine pores enough to allow rainwater to flow, The elastic material may be used. Depending on the materials and materials used, either the coating method or the bonding method may be used. For ease of installation, it is best to bond the adhesive to the bottom of the buffer member.

In addition, a protruding line member 151 made of artificial turf or cloth material may be provided at a central portion of the buffering piercing member at regular intervals in the longitudinal direction to display a playground line. The attachment method may be selected from a variety of known bonding methods including an adhesive and a fitting method. In case of the fitting method, it is necessary to have a processing step of forming a groove in the buffering member.

As another method, an insertable line member 152 of an elastic material having a color can be provided. The attachment method may be selected from a variety of known bonding methods including an adhesive and a fitting method. The insertion type line member is formed so as not to protrude so as to be flush with the upper surface of the buffering member.

When such a line member is installed, there is no need for separate line construction for marking a soccer field line on the field and line marking work for plaster or paint.

FIG. 8 is a plan view of a dam type integrated drainage structure according to an embodiment of the present invention installed along a playground line, and FIG. 9 is a plan view showing a play type integrated drainage structure according to another embodiment of the present invention, And FIG.

As shown in the drawings, the striking type integrated drainage structure according to the present invention can be selectively formed in a long or short form when the installation site is a circular or straight section in a playground line.

For example, a short-length circular line or a short straight line may have a short length of integral type drainage structures arranged at regular intervals, so that the drainage structure can be configured to be a multiple of each point.

In addition, the straight line having a long length may be constructed such that one long-length striking type integrated drainage structure is constructed so as to be continuous in the lateral direction like a sewer so that the high-quality material flows and is connected to the sewer or drained to the engineering layer.

Of course, it is of course possible to arrange the striking type integrated drainage structures at predetermined intervals at a predetermined interval in the straight line having a long length as needed, so that the drainage structures can be arranged in multiple places.

In the drawings, the form of the athletic field and line is illustrated for convenience of explanation, but the kind of the athletic field and the line are not limited to the soccer field but can be applied to any type of exercise in a simple athletic field.

In addition, the type of playground material can be applied to natural grass field, artificial turf field, coarse sand field, loess ground, clay field.

FIG. 10 is an exemplary view showing a drainage process through the impact type integrated drainage structure according to an embodiment of the present invention.

1 to 6 are installed on the soil layer and then rainwater falls or other water is introduced into the soil, the rainwater is discharged from the load supporting portion 112 of the wedge- Water is poured into the wedge-shaped drainage tank through the cloth tool 111, and simultaneously water is drained to the horizontal and vertical strata through a plurality of cloth tools and drains located lower than the water level of the stored water. At the same time, it flows into the drainage pipe, drained in one direction without a bottleneck of water flow by rubble or soil, or drained to the bottom through the hole and drained to the soil layer through the drainage hole.

This prevents flooding of the playground while preventing erosion of the soil layer, thus keeping the playground condition pleasant.

11 is a cross-sectional view showing a construction sequence of the striking type integrated drainage structure according to an embodiment of the present invention, and a description of the structure not shown in FIG. 11 is a view showing a structure of the struck type integrated drainage structure shown in FIGS. .

[First Embodiment]

The first embodiment is an embodiment according to Fig.

(First step)

First of all, the present invention has a step of providing a flush type integrated drainage structure 1 according to the present invention.

At this time, the wedge-type drainage tube 110 constituting the flush type integrated drainage structure 1 is provided with only the drainage drainage pipe 120 inside, or only the filler material 140 and the drainage drainage pipe 120 Select and prepare as needed.

However, since the wedge type drainage tank 110 is not hit by the soil layer, it is prepared that the buffering member 150 is not formed in the load supporting portion 112.

(Second step)

A support body 130 is attached to a slot 1111 of a cloth tool 111 at any position among a plurality of cloth tools arranged on each side of a wedge-type drainage cylinder 110 constituting the integral type wastewater structure 1, And inserting and installing.

The number and position of the supports can be selectively set according to the size of the wedge-shaped drainage pail to be inserted into the soil layer, the depth of insertion into the soil layer, and the material condition of the soil layer.

(Third step)

(1) according to a construction site of a playground line having a civil engineering layer formed by compaction of a single strata or a multi-layer strata of different materials.

The wedge-type drainage tube constituting the impact type integrated drainage structure (1) may be formed to be long or short or circularly formed depending on the shape of the construction site at the time of construction.

For example, a wedge type drainage tank having a short length may be applied to a circular line or a short straight line, and a wedge type drainage tank having a long length may be applied to a long straight line. Needless to say, a wedge-shaped drainage tank having a short length arranged at regular intervals may also be provided on long straight lines.

(Step 4)

A dedicated impact hole (2) corresponding to the sectional shape of the load supporting portion is placed on the wedge-shaped drainage box constituting the batting type integrated drainage structure (1) positioned at a size suitable for the construction site, And has a construction step. When the installation is completed, the striking type integrated drainage structure 1 is applied to the soil layer without excavation, and the support 130 inserted into the slot 1111 of the cloth tool 111 receives the load of the soil layer, It is prevented from being pushed upward by the earth pressure. In addition, the wedge type drainage tube is prevented from being pushed upward by the load of the filled filler.

At this time, the lower part of the wedge-type drainage tube 110 is installed so as to be inserted into the second layer made of the aggregate layer or the aggregate. When the lower part of the wedge-shaped drainage tube 110 is inserted into the second layer, the rainwater penetrated through the upper load supporting portion 112 or the cloth tools 111 formed in the upper or middle portion side direction is discharged into the wedge- And is rapidly drained in the vertical direction through the drainage holes 113 formed at the lower part together with the drainage in the horizontal direction through the cloth tools 111 formed in the lower side direction of the cylinder 110. [

In addition, the rainwater in the lower part flows into the drainage pipe 120, and the rainwater is supplied to the one-way drainage and the drainage hole 113 located at the lower part through the hole 121 formed around the drainage pipe.

At this time, it is preferable that the upper part of the wedge-shaped drainage tube 110 is inserted lower than the surface of the fourth layer 6. The reason for this is to later form the buffer piercing member 150 to level the surface level.

In the illustrated embodiment, the number of the civil engineering layers is four in total according to one embodiment of the present invention. However, the laminated structure of the civil engineering layers is for convenience of explanation only. A known carbon layer for adsorbing and removing harmful components contained in rainwater as needed, a known elastic layer composed of a rubber chip for providing a buffering force, a crack caused by overdrying of the surface of the playground while improving absorption of the surface of the playground And a surface coating layer for preventing generation of dust and scattering, and the like can be further included.

For reference, the first stratum 3 illustrated in the figure refers to a ground of an existing excavation site that has not been excavated.

A second layer 4 made of aggregate such as rubble and crushed stone is laminated on the first layer 3. The reason for the construction of the aggregate is that at least the lower portion of the wedge-shaped drainage tube 110 is inserted so that the vertical draining action through the drainage hole 113 formed at the lower portion of the wedge-shaped drainage tank can be performed quickly. Also, it plays a role to prevent uneven settlement.

A third stratum 5 composed of at least one selected from loam and silica sand is laminated on the second stratum 4. The reason for this construction is to satisfy various functions such as stability, drainage ability, dust scattering suppression ability, and comfort.

A fourth layer 6 made of granulated soil is stacked on the third layer 5. The fourth layer is a layer which is laminated on the uppermost part of the playground and is a layer in which the rainwater in the vertical direction quickly permeates and the drainage smoothly occurs.

(Step 5)

And forming a cushioning piercing member (150) on the upper surface of the load supporting portion (112) of the wedge type drainage cylinder (110) constituting the integral type drainage structure (1). At this time, the cushioning piercing member 150 may be attached to the upper portion of the load supporting portion by applying an adhesive material to the lower portion of the previously formed cushioning piercing member. It is further preferable that the lower surface of the buffer piercing member is worked according to the shape of the load supporting portion.

(Step 6)

A protruding line member 151 or an elastic insert line member 152 is formed on the upper surface of the buffering permeable member to form a line of a playground.

(Step 7)

The method may further include the step of constructing a grass planting layer around the buffering permeable member when the field is composed of natural grass or artificial grass after the completion of the construction.

11, only the second embodiment, the fifth step, the sixth step, and the seventh step of each step of the first embodiment can be selected as needed, And can be applied in various embodiments. Hereinafter, embodiments according to various implementation steps will be described. However, it is needless to say that the embodiment which is not described below is also applicable to the modification example using the impact type integrated drainage structure according to the present invention.

[Second Embodiment]

The second embodiment is an embodiment in which the second step of the first embodiment is excluded.

(First step)

First of all, the present invention has a step of providing a flush type integrated drainage structure 1 according to the present invention.

At this time, the wedge-type drainage tube 110 constituting the flush type integrated drainage structure 1 is provided with only the drainage drainage pipe 120 inside, or only the filler material 140 and the drainage drainage pipe 120 Select and prepare as needed.

(Second step)

(1) according to a construction site of a playground line having a civil engineering layer formed by compaction of a single strata or a multi-layer strata of different materials.

The wedge-type drainage tube constituting the impact type integrated drainage structure (1) may be formed to be long or short or circularly formed depending on the shape of the construction site at the time of construction.

For example, a wedge type drainage tank having a short length may be applied to a circular line or a short straight line, and a wedge type drainage tank having a long length may be applied to a long straight line. Needless to say, a wedge-shaped drainage tank having a short length arranged at regular intervals may also be provided on long straight lines.

(Third step)

A dedicated impact hole (2) corresponding to the sectional shape of the load supporting portion is placed on the wedge-shaped drainage tank of the striking type integrated drainage structure (1) positioned at a size suitable for the construction site, Step. When the installation is completed, the striking type integrated drainage structure 1 is applied to the soil layer without excavation, and the support 130 inserted into the slot 1111 of the cloth tool 111 receives the load of the soil layer, It is prevented from being pushed upward by the earth pressure. In addition, the wedge type drainage tube is prevented from being pushed upward by the load of the filled filler.

At this time, the lower part of the wedge-type drainage tube 110 is installed so as to be inserted into the second layer made of the aggregate layer or the aggregate. When the lower part of the wedge-shaped drainage tube 110 is inserted into the second layer, the rainwater penetrated through the upper load supporting portion 112 or the cloth tools 111 formed in the upper or middle portion side direction is discharged into the wedge- And is rapidly drained in the vertical direction through the drainage holes 113 formed at the lower part together with the drainage in the horizontal direction through the cloth tools 111 formed in the lower side direction of the cylinder 110. [

In addition, the rainwater in the lower part flows into the drainage pipe 120, and the rainwater is supplied to the one-way drainage and the drainage hole 113 located at the lower part through the hole 121 formed around the drainage pipe.

At this time, it is preferable that the upper part of the wedge-shaped drainage tube 110 is inserted lower than the surface of the fourth layer 6. The reason for this is to later form the buffer piercing member 150 to level the surface level.

In the illustrated embodiment, the number of the civil engineering layers is four in total according to one embodiment of the present invention. However, the laminated structure of the civil engineering layers is for convenience of explanation only. A known carbon layer for adsorbing and removing harmful components contained in rainwater as needed, a known elastic layer composed of a rubber chip for providing a buffering force, a crack caused by overdrying of the surface of the playground while improving absorption of the surface of the playground And a surface coating layer for preventing generation of dust and scattering, and the like can be further included.

For reference, the first stratum 3 illustrated in the figure refers to a ground of an existing excavation site that has not been excavated.

A second layer 4 made of aggregate such as rubble and crushed stone is laminated on the first layer 3. The reason for the construction of the aggregate is that at least the lower portion of the wedge-shaped drainage tube 110 is inserted so that the vertical draining action through the drainage hole 113 formed at the lower portion of the wedge-shaped drainage tank can be performed quickly. Also, it plays a role to prevent uneven settlement.

A third stratum 5 composed of at least one selected from loam and silica sand is laminated on the second stratum 4. The reason for this construction is to satisfy various functions such as stability, drainage ability, dust scattering suppression ability, and comfort.

A fourth layer 6 made of granulated soil is stacked on the third layer 5. The fourth layer is a layer which is laminated on the uppermost part of the playground and is a layer in which the rainwater in the vertical direction quickly permeates and the drainage smoothly occurs.

(Step 4)

And forming a cushioning piercing member (150) on the upper surface of the load supporting portion (112) of the wedge type drainage cylinder (110) constituting the integral type drainage structure (1). At this time, the cushioning piercing member 150 may be attached to the upper portion of the load supporting portion by applying an adhesive material to the lower portion of the previously formed cushioning piercing member. It is further preferable that the lower surface of the buffer piercing member is worked according to the shape of the load supporting portion.

(Step 5)

A protruding line member 151 or an elastic insert line member 152 is formed on the upper surface of the buffering permeable member to form a line of a playground.

(Step 6)

The method may further include the step of constructing a grass planting layer around the buffering permeable member when the field is composed of natural grass or artificial grass after the completion of the construction.

[Third Embodiment]

The third embodiment is an embodiment in which the fifth, sixth, and seventh steps of the first embodiment are excluded.

(First step)

First of all, the present invention has a step of providing a flush type integrated drainage structure 1 according to the present invention.

At this time, the wedge-type drainage tube 110 constituting the flush type integrated drainage structure 1 is provided with only the drainage drainage pipe 120 inside, or only the filler material 140 and the drainage drainage pipe 120 Select and prepare as needed.

(Second step)

A support body 130 is attached to a slot 1111 of a cloth tool 111 at any position among a plurality of cloth tools arranged on each side of a wedge-type drainage cylinder 110 constituting the integral type wastewater structure 1, And inserting and installing.

The number and position of the supports can be selectively set according to the size of the wedge-shaped drainage pail to be inserted into the soil layer, the depth of insertion into the soil layer, and the material condition of the soil layer.

(Third step)

(1) according to a construction site of a playground line having a civil engineering layer formed by compaction of a single strata or a multi-layer strata of different materials.

The wedge-type drainage tube constituting the impact type integrated drainage structure (1) may be formed to be long or short or circularly formed depending on the shape of the construction site at the time of construction.

For example, a wedge type drainage tank having a short length may be applied to a circular line or a short straight line, and a wedge type drainage tank having a long length may be applied to a long straight line. Needless to say, a wedge-shaped drainage tank having a short length arranged at regular intervals may also be provided on long straight lines.

(Step 4)

A dedicated impact hole (2) corresponding to the sectional shape of the load supporting portion is placed on the wedge-shaped drainage tank of the striking type integrated drainage structure (1) positioned at a size suitable for the construction site, Step. When the installation is completed, the striking type integrated drainage structure 1 is applied to the soil layer without excavation, and the support 130 inserted into the slot 1111 of the cloth tool 111 receives the load of the soil layer, It is prevented from being pushed upward by the earth pressure. In addition, the wedge type drainage tube is prevented from being pushed upward by the load of the filled filler.

At this time, the lower part of the wedge-type drainage tube 110 is installed so as to be inserted into the second layer made of the aggregate layer or the aggregate. When the lower part of the wedge-shaped drainage tube 110 is inserted into the second layer, the rainwater penetrated through the upper load supporting portion 112 or the cloth tools 111 formed in the upper or middle portion side direction is discharged into the wedge- And is rapidly drained in the vertical direction through the drainage holes 113 formed at the lower part together with the drainage in the horizontal direction through the cloth tools 111 formed in the lower side direction of the cylinder 110. [

In addition, the rainwater in the lower part flows into the drainage pipe 120, and the rainwater is supplied to the one-way drainage and the drainage hole 113 located at the lower part through the hole 121 formed around the drainage pipe.

At this time, it is preferable that the upper part of the wedge-shaped drainage tube 110 is inserted lower than the surface of the fourth layer 6. The reason for this is to later form the buffer piercing member 150 to level the surface level.

In the illustrated embodiment, the number of the civil engineering layers is four in total according to one embodiment of the present invention. However, the laminated structure of the civil engineering layers is for convenience of explanation only. A known carbon layer for adsorbing and removing harmful components contained in rainwater as needed, a known elastic layer composed of a rubber chip for providing a buffering force, a crack caused by overdrying of the surface of the playground while improving absorption of the surface of the playground And a surface coating layer for preventing generation of dust and scattering, and the like can be further included.

For reference, the first stratum 3 illustrated in the figure refers to a ground of an existing excavation site that has not been excavated.

A second layer 4 made of aggregate such as rubble and crushed stone is laminated on the first layer 3. The reason for the construction of the aggregate is that at least the lower portion of the wedge-shaped drainage tube 110 is inserted so that the vertical draining action through the drainage hole 113 formed at the lower portion of the wedge-shaped drainage tank can be performed quickly. Also, it plays a role to prevent uneven settlement.

A third stratum 5 composed of at least one selected from loam and silica sand is laminated on the second stratum 4. The reason for this construction is to satisfy various functions such as stability, drainage ability, dust scattering suppression ability, and comfort.

A fourth layer 6 made of granulated soil is stacked on the third layer 5. The fourth layer is a layer which is laminated on the uppermost part of the playground and is a layer in which the rainwater in the vertical direction quickly permeates and the drainage smoothly occurs.

(Step 5)

And a step of covering the upper part of the stranded integrated drainage structure inserted into the soil layer with the soil layer after the above step.

[Fourth Embodiment]

The fourth embodiment is an embodiment in which the second step, the fifth step, the sixth step and the seventh step are omitted from the first embodiment.

(First step)

First of all, the present invention has a step of providing a flush type integrated drainage structure 1 according to the present invention.

At this time, the wedge-type drainage tube 110 may be provided with only the hole drainage pipe 120 therein, or may be prepared by selecting one of the filler material 140 and the hole drainage pipe 120, if necessary.

(Second step)

(1) according to a construction site of a playground line having a civil engineering layer formed by compaction of a single strata or a multi-layer strata of different materials.

The wedge-type drainage tube constituting the impact type integrated drainage structure (1) may be formed to be long or short or circularly formed depending on the shape of the construction site at the time of construction.

For example, a wedge type drainage tank having a short length may be applied to a circular line or a short straight line, and a wedge type drainage tank having a long length may be applied to a long straight line. Needless to say, a wedge-shaped drainage tank having a short length arranged at regular intervals may also be provided on long straight lines.

(Third step)

A dedicated impact hole (2) corresponding to the sectional shape of the load supporting portion is placed on the wedge-shaped drainage tank of the striking type integrated drainage structure (1) positioned at a size suitable for the construction site, Step. When the installation is completed, the striking type integrated drainage structure 1 is applied to the soil layer without excavation, and the support 130 inserted into the slot 1111 of the cloth tool 111 receives the load of the soil layer, It is prevented from being pushed upward by the earth pressure. In addition, the wedge type drainage tube is prevented from being pushed upward by the load of the filled filler.

At this time, the lower part of the wedge-shaped drainage box 110 constituting the batched type integrated drainage structure 1 is installed so as to be inserted into the second layer made of the aggregate layer or aggregate. When the lower part of the wedge-shaped drainage tube 110 is inserted into the second layer, the rainwater penetrated through the upper load supporting portion 112 or the cloth tools 111 formed in the upper or middle portion side direction is discharged into the wedge- And is rapidly drained in the vertical direction through the drainage holes 113 formed at the lower part together with the drainage in the horizontal direction through the cloth tools 111 formed in the lower side direction of the cylinder 110. [

In addition, the rainwater in the lower part flows into the drainage pipe 120, and the rainwater is supplied to the one-way drainage and the drainage hole 113 located at the lower part through the hole 121 formed around the drainage pipe.

At this time, it is preferable that the upper part of the wedge-shaped drainage tube 110 is inserted lower than the surface of the fourth layer 6. The reason for this is to later form the buffer piercing member 150 to level the surface level.

In the illustrated embodiment, the number of the civil engineering layers is four in total according to one embodiment of the present invention. However, the laminated structure of the civil engineering layers is for convenience of explanation only. A known carbon layer for adsorbing and removing harmful components contained in rainwater as needed, a known elastic layer composed of a rubber chip for providing a buffering force, a crack caused by overdrying of the surface of the playground while improving absorption of the surface of the playground And a surface coating layer for preventing generation of dust and scattering, and the like can be further included.

For reference, the first stratum 3 illustrated in the figure refers to a ground of an existing excavation site that has not been excavated.

A second layer 4 made of aggregate such as rubble and crushed stone is laminated on the first layer 3. The reason for the construction of the aggregate is that at least the lower portion of the wedge-shaped drainage tube 110 is inserted so that the vertical draining action through the drainage hole 113 formed at the lower portion of the wedge-shaped drainage tank can be performed quickly. Also, it plays a role to prevent uneven settlement.

A third stratum 5 composed of at least one selected from loam and silica sand is laminated on the second stratum 4. The reason for this construction is to satisfy various functions such as stability, drainage ability, dust scattering suppression ability, and comfort.

A fourth layer 6 made of granulated soil is stacked on the third layer 5. The fourth layer is a layer which is laminated on the uppermost part of the playground and is a layer in which the rainwater in the vertical direction quickly permeates and the drainage smoothly occurs.

(Step 4)

And a step of covering the upper part of the stranded integrated drainage structure inserted into the soil layer with the soil layer after the above step.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(1): a striking-type integrated drainage structure (2): a striking hole
(3): first stratum (4): second stratum
(5): third stratum (6): fourth stratum
(7): grass planting layer (110): wedge-shaped drainage tank
(120): Hole drain pipe (130): Support
(140): filler (150): buffering member
(111): cloth tool (112): load supporting member
(113): drain hole (114): vertical extension part
(121): hole (131): elastic insertion piece
(132): supporting piece (151): protruding line member
(152): insertable line member (1111): slot
(1311): a jaw

Claims (16)

There is provided a metal material or plastic material drainage structure to be installed in a playground provided with a single stratum for drainage or a multi-layered ground layer,
And a wedge-shaped side cross-sectional shape of a single body to be inserted into the civil engineering layer by the impact, wherein a plurality of cloth tools for watering or drainage of rainwater are arranged on each surface, A wedge-shaped drainage passage of a single body formed with a load supporting portion having an elastic structure for reducing the vertical dimension of the drainage passage,
And a drainage pipe installed in the wedge-shaped drainage tank for draining the rainwater flowing in one direction or the lower direction,

The striking type integrated drainage structure is formed with a slot for inserting a supporting member into a cloth tool which is arranged in a plurality of wedge type drainage tanks, an elastic insertion piece inserted into the slot to receive the load of the soil layer inserted and inserted outside the slot, And a support made of a supporting piece subjected to the load of the soil layer,
Wherein the resilient insertion piece is formed in a shape in which a locking step is formed at each end and is symmetrical in the left and right direction, and the supporting piece is formed so as to have a flat upper part and a tapered shape toward the lower part. Integrated drainage structure.
The method according to claim 1,
Wherein the striking type integrated drainage structure for a playground comprises any one of long and short lengths depending on a line form of a linear or circular playground.
delete delete The method according to claim 1,
The wedge type drainage structure for a playground according to claim 1, wherein the wedge type drainage tube further comprises a filler charged in the inner space.
The method according to claim 1,
Wherein the load supporting portion constituting the upper portion of the wedge-shaped drainage tank is formed in an arcuate or square shape having a central portion higher than an edge.
The method according to claim 1,
Wherein the wedge-shaped drainage tank is formed in a wedge shape from a lower portion to a point height, and is formed as a vertically extending portion formed vertically from one point to the upper load supporting portion.
The method according to claim 1,
The drainage pipe may have a structure in which the drainage pipe is protruded outwardly and then inserted into a soil layer or connected to a neighboring drainage pipe using a connecting member, or a structure in which a single drainage pipe is connected to a plurality of wedge- Wherein the first and second drainage structures are connected to each other.
The method according to claim 1,
And a buffer piercing member provided on an upper surface of a load supporting portion of the wedge-type drainage tank.
The method of claim 9,
Wherein the protruding line member or the insertion line member is formed at the center of the cushioning piercing member.
A method of constructing a drainage structure to be installed in a playground where a single stratum for draining or a multi-layer stratified ground layer is provided,
The method of claim 1, further comprising: providing a striking type integrated drainage structure for a playground according to any one of claims 1, 2, 5, 6, and 7;
Placing a batting type integrated drainage structure made of the same or different length depending on a shape of a construction site of a playground line;
Placing a striking hole corresponding to the cross-sectional shape of the load supporting portion on the wedge-shaped drainage tank of the striking type integrated drainage structure positioned in a size fitting with the construction site, and then inserting the striking hole into the soil layer Wherein the method comprises the steps of:
The method of claim 11,
And inserting a support into a slot of a cloth tool at any position among a plurality of cloth tools arranged on each side of the wedge-type drainage box constituting the impact type integrated drainage structure. Construction method of integrated type drainage structure for playground.
The method of claim 11,
The method of claim 1, further comprising the step of covering the upper part with the soil layer after striking the stratified integrated drainage structure on the soil layer.
The method of claim 11,
The step of inserting the striking type integrated drainage structure into the soil layer may be performed by projecting the drainage pipe inserted into the wedge-type drainage tank to the outside and then using the drainage pipe and the connection member of the adjacent wedge- And a method of connecting a plurality of wedge type drainage tanks to a drainage path formed at an edge of a playground, by connecting the plurality of wedge type drainage tanks to one of the plurality of wedge type drainage tanks, Construction method of structure.
The method of claim 11,
Forming a buffering piercing member on the upper surface of the load supporting portion of the wedge-type drainage tank constituting the striking type integrated drainage structure after striking the stratified integrated drainage structure on the soil layer;
And forming a line of a playground by forming a protruding line member or an insertable line member of elastic material on the upper surface of the buffering piercing member.
16. The method of claim 15,
The method of claim 1, further comprising the step of applying a grass planting layer around the cushioning pail member when the playground is constructed of natural grass or artificial grass after the cushioning piercing member is applied.

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