KR102430652B1 - Constroction method of aeration rainwater storage tank for trees - Google Patents

Abstract

The present invention provides a device for improving a tree environment. The device for improving a tree environment comprises: a tubular body having an open upper end and a closed lower end; a plurality of ventilation holes formed through along a circumference of an upper side wall of the tubular body at a set height or higher; and a perforated pipe including one or more rope holes formed through along the set height of the tubular body; and a watering rope made of a hydrophilic fiber material and having a length corresponding to the height of the tubular body, penetrating the rope hole from an outside to an inside thereof, and having a lower side disposed inside the perforated pipe with respect to the rope hole and an upper side disposed along a longitudinal direction on an outside of the tubular body. Accordingly, provided is a method of constructing a ventilation rainwater storage tank for trees capable of preventing drought by storing rainwater in a storage tank and supplying water.

Description

CONSTROCTION METHOD OF AERATION RAINWATER STORAGE TANK FOR TREES

The present invention relates to a method for constructing an aeration rainwater storage tank for trees.

When moisture retention in the soil becomes excessive due to long-term rainfall and torrential rains such as in the rainy season, trees grow on the basis of the soil. The condition of the soil determines whether the growth of a tree is good or bad. In the case of soil formed with artificial ground, the growth is further determined by the condition of the soil.

All trees are divided into myocardial and superficial, which in some cases are classified according to the tree’s properties, but in most cases, the superficial trees have a deep soil and organic matter content distributed to the depth of the soil. The roots are distributed evenly, and the risk of loincloth is reduced.

Therefore, improving the properties of the artificially created soil or the soil under construction in the city center plays a decisive role in the growth of trees.

However, in artificial soil, if there is a high-quality excavation field, it has good tung properties, but it is not. Soil close to mud or a mixture of gravel and mud is in poor condition, and soil that does not drain well or even generates harmful gas is brought in, which impedes the growth of trees. There is a problem with

Republic of Korea Patent Registration No. 10-0469079 Republic of Korea Patent Publication No. 10-2016-0134325 Republic of Korea Patent Registration No. 10-0888887 Republic of Korea Patent Publication No. 10-2011-0036563

The present invention supplies oxygen to the roots of trees by constructing a vented rainwater storage tank that is buried near trees and can effectively supply nutrients, water, and oxygen to the roots, and stores rainwater that is easily lost in rain in the storage tank to supply moisture during drought Accordingly, an object of the present invention is to provide a method of constructing an aeration rainwater storage tank for trees that can prevent drought.

In order to achieve the above object, the present invention,

Forming a pit in a position to plant a tree;

placing tree root powder in the pit;

disposing one or more aeration rainwater storage tanks in contact with the tree root powder;

filling the pit with soil and filling it with soil; and

Comprising the step of coupling the opening and closing port to the upper end of the vented rainwater storage tank,

The aeration rainwater storage tank,

A tubular body having an upper end open and a lower end closed, a plurality of vent holes penetrating along the upper sidewall periphery of the tubular body at a predetermined height or higher, and a rope hole penetrating one or more along the set height of the tubular body Perforated pipe comprising; and

It is formed of a hydrophilic fiber material and has a length corresponding to the height of the tubular body, passes through the rope hole from the outside to the inside, and the lower side with respect to the rope hole is disposed inside the perforated tube, and the upper side with respect to the rope hole is the tubular body It provides a vented rainwater storage tank construction method comprising a; irrigation pipe disposed along the longitudinal direction on the outside of the.

According to another embodiment of the present invention,

Forming one or more holes with an auger in the soil at a location spaced apart by a set interval around the planted trees;

processing the sand dug out of the hole;

inserting a vented rainwater reservoir into each of the holes;

Filling the mixed soil between the aeration rainwater storage tank and the hole; and

Comprising the step of coupling the opening and closing port to the upper end of the vented rainwater storage tank,

The aeration rainwater storage tank,

A tubular body having an upper end open and a lower end closed, a plurality of vent holes penetrating along the upper sidewall periphery of the tubular body at a predetermined height or higher, and a rope hole penetrating one or more along the set height of the tubular body Perforated pipe comprising; and

It is formed of a hydrophilic fiber material and has a length corresponding to the height of the tubular body, passes through the rope hole from the outside to the inside, and the lower side with respect to the rope hole is disposed inside the perforated tube, and the upper side with respect to the rope hole is the tubular body It provides a vented rainwater storage tank construction method comprising a; irrigation pipe disposed along the longitudinal direction on the outside of the.

The aeration rainwater storage tank,

One side is formed in a cut-out ring shape to accommodate the irrigation pipe inside, and both ends are inserted into a pair of adjacent vent holes, respectively, to further include a cut-out ring for fixing the irrigation pipe to the outside of the tubular body have.

According to another embodiment of the present invention,

Forming a pit in a position to plant a tree;

placing tree root powder in the pit;

disposing one or more aeration rainwater storage tanks in contact with the tree root powder;

filling the pit with soil and filling it with soil; and

Comprising the step of coupling the opening and closing port to the upper end of the vented rainwater storage tank,

The aeration rainwater storage tank,

A tubular body having an upper end open and a lower end closed, a plurality of vent holes penetrating along the upper sidewall perimeter of the tubular body at a predetermined height or higher, and a tubular inward protruding longitudinally along the perimeter of the upper sidewall, A perforated tube including a rope receiving tube incised to the outside of the tubular body, the upper end is open, and the lower end has a lower through-hole formed inside the tubular body; and

Containing; is formed of a hydrophilic fiber material and has a length corresponding to the height of the tubular body, is inserted into the rope receiving pipe, passes through the lower end of the rope receiving pipe, and the lower side is disposed inside the perforated pipe; including A method for constructing an aeration rainwater storage tank is provided.

According to another embodiment of the present invention,

Forming one or more holes with an auger in the soil at a location spaced apart by a set interval around the planted trees;

processing the sand dug out of the hole;

inserting a vented rainwater reservoir into each of the holes;

Filling the mixed soil between the aeration rainwater storage tank and the hole; and

Comprising the step of coupling the opening and closing port to the upper end of the vented rainwater storage tank,

The aeration rainwater storage tank,

A tubular body having an upper end open and a lower end closed, a plurality of vent holes penetrating along the upper sidewall perimeter of the tubular body at a predetermined height or higher, and a tubular inward protruding longitudinally along the perimeter of the upper sidewall, A perforated tube including a rope receiving tube incised to the outside of the tubular body, the upper end is open, and the lower end has a lower through-hole formed inside the tubular body; and

Containing; is formed of a hydrophilic fiber material and has a length corresponding to the height of the tubular body, is inserted into the rope receiving pipe, passes through the lower end of the rope receiving pipe, and the lower side is disposed inside the perforated pipe; including A method for constructing an aeration rainwater storage tank is provided.

In the step of arranging the aeration rainwater storage tank, the aeration rainwater storage tank is characterized in that four are arranged per 10cm diameter of the tree.

The opening/closing opening is formed in a tubular shape of a tubular shape having a corresponding pipe diameter and a set height to be inserted into the perforated pipe, and a tubular shape having a larger diameter and a set height than the outer diameter of the perforated pipe, and a second pipe that covers the upper end of the perforated pipe , A disk-shaped upper cover in which the upper ends of the first pipe and the second pipe are coupled to the bottom surface, and a circular nonwoven cover formed with a diameter corresponding to the top of the first pipe and coupled to the bottom surface of the top cover. characterized in that

The upper cover is formed with a donut plate-shaped rainwater induction part having a high outside with a set inclination from the outer circumference to a position corresponding to the inner diameter of the second pipe, and the rainwater guide part has a plurality of hatched mold grooves in a direction perpendicular to the circumference It is characterized in that it is formed along the perimeter of the upper surface.

In the venting rainwater storage tank arrangement step, the upper end of the perforated pipe is positioned at a height of 2 to 3 cm from the ground, and after performing the step of coupling the opening and closing ports to the top of the aeration rainwater storage tank, the mulching material is horizontal with the outer periphery of the upper cover It is characterized by mulching.

The upper cover extends inward from the inner diameter of the rainwater inducing part to form an inclined portion, and extends inwardly from the inclined portion to form a concave portion, and extends inwardly from the concave portion to form a ∩-shaped convex portion, the convex portion It is characterized in that the disc-shaped injection part is formed inwardly.

According to the embodiment of the present invention configured as described above, it is possible to construct a vented rainwater storage tank that is buried near the tree and can effectively supply nutrients, water, and oxygen to the root side in close proximity to the root of the tree.

1 is a flowchart illustrating a method for constructing a vented rainwater storage tank according to an embodiment of the present invention.
2 is a flowchart illustrating a method of constructing a vented rainwater storage tank according to another embodiment of the present invention.
3 is a perspective view showing a vented rainwater storage tank according to an embodiment of the present invention;
Figure 4 is a perspective view showing the perforated tube of Figure 3;
5 is a perspective view showing a state in which the irrigation pipe is mounted on the perforated pipe of the ventilation rainwater storage tank according to another embodiment of the present invention.
6 is a vertical cross-sectional view of the perforated pipe of the ventilation rainwater storage tank of FIG.
7 is a vertical cross-sectional view of the perforated pipe of the ventilation rainwater storage tank of FIG.
8 is a vertical cross-sectional view showing a state in which the irrigation pipe is mounted on the perforated pipe of the ventilation rainwater storage tank of FIG.
9 is a vertical cross-sectional view showing a state in which the irrigation pipe is mounted on the perforated pipe of the ventilation rainwater storage tank of FIG.
10 is a view showing the opening and closing of the vented rainwater storage tank according to an embodiment of the present invention.
11 is a vertical cross-sectional view of the vented rainwater storage tank of FIG.
12 is a cross-sectional view showing a state constructed according to the construction method of the ventilation rainwater storage tank according to the embodiment of the present invention.

The present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention belongs It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

In describing the embodiments of the present invention, if it is determined that a detailed description of a well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the terms to be described later are terms defined in consideration of functions in an embodiment of the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

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

The method for constructing a vented rainwater storage tank according to an embodiment of the present invention includes a construction method for planting a new tree and a method for constructing a vented rainwater storage tank on an existing tree.

1 is a flowchart illustrating a method of constructing an aeration rainwater storage tank when planting new trees, and FIG. 2 is a flowchart illustrating a method of constructing an aeration rainwater storage tank on previously planted trees.

As shown in FIG. 1 , the construction method for planting a new tree includes the steps of forming a pit at a position to plant a tree (S11), seating the tree root powder in the pit (S12), and connecting to the tree root powder to one It includes the steps of disposing the above aeration rainwater storage tank (S13), filling the pit with soil (S14), and coupling the opening and closing port to the top of the aeration rainwater storage tank (S15).

As shown in FIG. 2 , the method of constructing a vented rainwater storage tank on previously planted trees includes the steps of forming one or more holes with an auger in the soil at a location spaced apart by a set interval around the planted trees (21), the above Processing the sand dug out of the hole (S22), inserting an aeration rainwater reservoir into each of the holes (S23), filling the aerated rainwater reservoir with mixed soil between the hole and filling the hole (S24), and the aeration rainwater reservoir Including the step of coupling the opening at the top.

The ventilation rainwater storage tank includes a perforated pipe 100 , an opening 400 , and a water pipe 310 .

3 is a perspective view showing a vented rainwater storage tank according to a first embodiment of the present invention, FIG. 4 is a perspective view showing the perforated pipe of FIG. 3, FIG. 6 is a vertical cross-sectional view of the perforated pipe of FIG. 3, and FIG. It is a vertical cross-sectional view showing the state in which the irrigation pipe is mounted on the perforated pipe.

As shown, the perforated pipe 100 according to the first embodiment of the present invention is a tubular body 110 with an open top and a closed bottom, one or more formed along the circumference of the set height of the tubular body 110 The rope ball 120, the tubular body 110 includes a plurality of vent holes 111 are formed to penetrate at a set interval along the upper periphery of the height above the rope ball 120 is formed. The perforated pipe 100 is to be referred to as the upper portion of the height at which the rope hole 120 is formed, and the lower portion is referred to as the lower portion.

The opening 400 covers the open top of the tubular body 110 . The opening and closing port 400 is formed with a plurality of through-holes so that rainwater is injected into the perforated tube 100 , protects from foreign substances, and prevents children from being injured by the perforated tube 100 .

The irrigation rope 310 is made of a high hydrophilic fiber material, and the upper part is disposed on the outer surface of the tubular body 120 of the perforated tube 100 , and is inserted into the rope hole 120 and the lower part is the vent hole of the perforated tube 100 . (111) is disposed on the lower inner side of the perforated pipe 100 is not formed. The irrigation rope 310 is formed with a length corresponding to the height of the perforated tube 100 and moves water stored in the lower portion of the perforated tube 100 upward through the capillary force and moisture diffusion by the hydrophilic fibers. The irrigation rope 310 may be fixed to the outer surface of the tubular body 120 of the perforated tube 100 by using the cut-out ring 320 in which both ends are inserted into the adjacent vent 111 . There are no restrictions on the fastening tools.

Hereinafter, the perforated pipe 100 ′ of the vented rainwater storage tank according to the second embodiment of the present invention will be described with reference to FIGS. 5, 7 and 9 . 5 is a perspective view showing a state in which a irrigation pipe is mounted to a vented rainwater storage tank according to a second embodiment of the present invention, FIG. 7 is a vertical cross-sectional view of the perforated pipe of FIG. 5, and FIG. 9 is a second embodiment of the present invention It is a front sectional view showing the state in which the irrigation pipe is installed in the aeration rainwater storage tank.

As shown, the perforated pipe 100 ′ according to the second embodiment of the present invention includes a tubular body 110 , a plurality of formed by penetrating the upper sidewall from the upper end of the tubular body 110 to a set height at a set interval. The vent hole 111 and the irrigation rope 300 protrude inward in the longitudinal direction of the side wall of the tubular body 110 to the height at which a plurality of the vent holes 111 are formed in a corresponding shape so that the irrigation rope 300 can be inserted in the longitudinal direction. , a rope accommodating pipe 113 formed by incision to the outside, and a fixture 114 that crosses the cut portion of the rope accommodating pipe 113 to prevent separation of the inserted irrigation pipe 310 . A vent hole 111 ′ is also formed on the surface protruding to the inside of the tubular body 110 of the rope receiving tube 113 . The rope accommodating pipe 113 has both the upper end and the lower end open. The lower through-hole 113-1 of the rope accommodating pipe 113 is opened to the inside of the perforated pipe 100'. The irrigation rope 310 inserted into the rope accommodating pipe 113 is exposed to the outside of the perforated pipe 100 ′, in which the vent hole 111 of the perforated pipe 100 ′ is formed. ) is disposed inside the perforated tube 100' through the lower through-hole 113-1 and comes into contact with rainwater accommodated inside the perforated tube 100' to raise moisture upward through the capillary phenomenon.

10 shows the opening 400 of the vented rainwater storage tank according to an embodiment of the present invention, and FIG. 11 shows a cross-section of the perforated pipe 100 to which the opening 400 is coupled. As shown, the opening 400 is a first pipe 430 of a tubular shape having a corresponding pipe diameter and a set height to be inserted into the perforated pipe 100, a pipe diameter larger than the outer diameter of the perforated pipe 100 and a tubular shape of a set height. A second pipe 420 formed to cover the outer top of the perforated pipe 100, and an upper cover 410 having a disk shape in which the upper ends of the first pipe 430 and the second pipe 420 are coupled to the bottom surface. is composed The upper cover 410 is a donut plate-shaped rainwater inducing part 411, the rainwater inducing part 411 formed with a set inclination from the outer circumference to a position corresponding to the inner diameter of the second pipe 420, from the inner diameter to the inside. The inclined portion 412 extending, the ∪-shaped concave portion 413 extending inward from the inclined portion 412, the ∩-shaped convex portion 414 extending inward from the concave portion, and the inner side from the convex portion 414 Includes a disk-shaped injection portion 415 formed of. The donut plate-shaped rainwater guide portion 411 is formed along the upper surface of the plurality of hatched mold grooves in the vertical direction to the circumference so that rainwater can be guided from the outside to the center side. A plurality of through-holes 412-1, 413-1, and 414-1 are formed along the periphery by passing through each of the inclined portion 412, the concave portion 413, and the convex portion 414, so that rainwater flows through the upper cover 410 ) so that it can be put inside. An injection hole 415 - 1 is cut and formed in the injection part 415 . The injection hole 415-1 may have a 'x' or '*' shape. A nonwoven cover 500 of a corresponding tube diameter is coupled to the upper end of the first pipe 430 among the bottom surfaces of the upper cover 410 to prevent soil or foreign substances from entering the perforated tube 100 through the upper cover 410. can A '+'-shaped incision is formed in the central region of the nonwoven fabric 500 so that only moisture can enter the perforated tube 100 . The nonwoven cover 500 can prevent the roots from being damaged by cold in winter. The first pipe 430 of the set height is inserted inside the upper end of the tubular body 110, and the second pipe 420 covers the upper outer side of the tubular body 110 and is buried through the inlet of the perforated tube 100. It can prevent foreign substances such as soil from entering.

In the step of arranging the aeration rainwater storage tank, it is preferable to arrange four aeration rainwater storage tanks per 10cm diameter of the tree.

The upper ends of the perforated pipes 100 and 100' are arranged to be located at a height of 2 to 3 cm from the ground, and after performing the step of coupling the opening and closing ports 400 to the upper end of the aeration rainwater storage tank, the mulching material is mulched so that it is horizontal with the outer periphery of the upper cover. ) is preferable. Mulching material prevents the plants on the planting surface from drying out or trampling on them, and mulching is used to prevent surface erosion and suppress weed growth. it says slap your back

12 is a cross-sectional view showing a state constructed according to the method for constructing a ventilation rainwater storage tank according to an embodiment of the present invention. As shown, a perforated pipe capable of storing water in the lower part is installed around the root of the tree, and while supplying oxygen to the soil through the through hole in the upper part, the water stored in the lower part is pulled upward through the irrigation pipe, so that the water stored at the root is stored. Water and nutrients can be provided to the roots of trees during the dry season. While the opening and closing port 400 covers the upper end of the perforated tube 100 , moisture is introduced into the perforated tube and other foreign substances are blocked to prevent cold damage in winter.

Claims (10)

Forming a pit in a position to plant a tree;
placing tree root powder in the pit;
disposing one or more aeration rainwater storage tanks in contact with the tree root powder;
filling the pit with soil and filling it with soil; and
Comprising the step of coupling the opening and closing port to the upper end of the vented rainwater storage tank,
The aeration rainwater storage tank,
A tubular body having an open upper end and a closed lower end, a plurality of vent holes penetrating along the upper sidewall perimeter of the tubular body at a predetermined height or higher, and protruding inward in a tubular shape longitudinally along the perimeter of the upper sidewall, A perforated tube including a rope receiving tube incised to the outside of the tubular body, the upper end is open, and the lower end has a lower through-hole formed inside the tubular body; and
It is formed of a hydrophilic fiber material with a length corresponding to the height of the tubular body, is inserted into the rope receiving pipe, passes through the lower end of the rope receiving pipe through the through hole, and the lower side is disposed inside the perforated pipe; and ,
The rope accommodating pipe is a ventilation rainwater storage tank construction method in which a fixture that crosses the incision is formed. Forming one or more holes with an auger in the soil at a location spaced apart by a set interval around the planted tree;
processing the sand dug out of the hole;
inserting a vented rainwater reservoir into each of the holes;
Filling and embedding mixed soil between the aeration rainwater storage tank and the hole; and
Comprising the step of coupling the opening and closing port to the upper end of the vented rainwater storage tank,
The aeration rainwater storage tank,
A tubular body having an open upper end and a closed lower end, a plurality of vent holes penetrating along the upper sidewall perimeter of the tubular body at a predetermined height or higher, and protruding inward in a tubular shape longitudinally along the perimeter of the upper sidewall, a perforated tube including a rope receiving tube incised to the outside of the tubular body, the upper end is open, and the lower end has a lower through-hole formed inside the tubular body; and
It is formed of a hydrophilic fiber material with a length corresponding to the height of the tubular body, is inserted into the rope receiving pipe, passes through the lower end of the rope receiving pipe through the through hole, and the lower side is disposed inside the perforated pipe; and ,
The rope accommodating pipe is a ventilation rainwater storage tank construction method in which a fixture that crosses the incision is formed. delete delete delete The method of claim 1,
In the step of arranging the aeration rainwater storage tank, the aeration rainwater storage tank construction method, characterized in that four aeration rainwater storage tanks are arranged per 10cm diameter of a tree. The method of claim 1,
The opening/closing opening is formed in a tubular shape of a tubular shape having a corresponding pipe diameter and a set height to be inserted into the perforated pipe, and a tubular shape having a pipe diameter and a set height larger than the outer diameter of the perforated pipe, and a second pipe covering the upper end of the perforated pipe , A disk-shaped upper cover in which the upper ends of the first pipe and the second pipe are coupled to the bottom surface, and a circular nonwoven cover formed with a diameter corresponding to the top of the first pipe and coupled to the bottom surface of the top cover. A ventilation rainwater storage tank construction method, characterized in that. 8. The method of claim 7,
The upper cover is formed with a donut plate-shaped rainwater induction part having a high outside with a set inclination from the outer circumference to a position corresponding to the inner diameter of the second pipe, and the rainwater guide part has a plurality of hatched mold grooves in a direction perpendicular to the circumference A ventilation rainwater storage tank construction method, characterized in that formed along the perimeter of the upper surface. 9. The method of claim 8,
In the venting rainwater storage tank arrangement step, the upper end of the perforated pipe is positioned at a height of 2-3 cm from the ground, and after performing the step of coupling the opening and closing port to the top of the aeration rainwater storage tank, the mulching material is horizontal with the outer periphery of the upper cover Aeration rainwater storage tank construction method, characterized in that mulching. 9. The method of claim 8,
The upper cover extends inward from the inner diameter of the rainwater inducing part to form an inclined portion, extends inwardly from the inclined portion to form a concave portion, and extends inwardly from the concave portion to form a ∩-shaped convex portion, the convex portion A ventilation rainwater storage tank construction method, characterized in that the disk-shaped injection part is formed on the inside.

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