KR101209872B1 - Black layer removal method for grass - Google Patents

Abstract

PURPOSE: A black layer removal method for lawn grass for securing air permeability is provided to remove anaerobes by supplying oxygen to a black layer and top soil. CONSTITUTION: A black layer removal method for lawn grass for securing air permeability comprises the following steps: producing plural drain holes having a diameter of 5-6 cm and a depth of 40-50 cm on the surface of top soil with lawn grass(S100); filling the drain holes with functional soil containing an oxygen generating agent(S200); and spraying water on the surface of the top soil 1-4 times over 24 hours(S300). The functional soil contains 88-96.5 wt% of silica, 3-10 wt% of soil conditioner, and 0.5-2 wt% of an oxygen generating agent. [Reference numerals] (S100) Producing holes; (S200) Filling soil; (S300) Supplying oxygen

Description

Black layer removal method for grass

The present invention relates to a method for removing a black layer of grass for removing the black layer generated on the surface or the inside of the topsoil on which the grass is planted. After filling the drain hole with the functional soil mixed with the generator, water is sprayed on the top of the topsoil at regular time intervals to generate oxygen by reacting the oxygen generator with water, thereby supplying oxygen to the topsoiled grass so that the grass is planted. Field of the present invention is a method for removing black layers of grass that can remove black layers formed on topsoil.

As today's quality of life increases, so do the new perceptions of turf as people prefer cultural benefits and create new cultures. Therefore, with the development of sports such as leisure and athletics, the improvement of the grass is continuously made, and the grass management means for the early development of grass resistant to pests, pest control of the grass and soil fertilization are utilized.

In addition, turf is composed of organic matter, water, and minerals, and is approximately 70% moisture, 27% organic matter, and 3% inorganic matter, and has the highest water content and the lowest mineral content. It is known that there are over 50 chemical elements in grass. However, it is not necessary to absorb all of them, and the number of elements required by grass is 16 elements, and essential elements are classified into macro and trace elements depending on the degree of demand. The major elements are carbon, hydrogen, oxygen, nitrogen, phosphoric acid, girly, calcium, magnesium, and sulfur. Nine kinds of elements are iron, manganese, copper, zinc, chlorine, boron, and molybdenum. 7 species. Carbon, hydrogen, and oxygen are absorbed in the form of water and carbon dioxide, but the other components must be absorbed in the form of ions from the soil. If any one of the inorganic components is deficient, the growth of the plant is governed by the amount of that component. It does not matter to the amount of ingredients supplied to the product. In the case of chemical fertilizers that can supply various fertilizer components, there are problems such as soil weakening due to acidification of the soil.

In addition, the effect of soil containing various nutrients is important in the management after planting the grass in the topsoil, but the growth of the grass is often determined by the effects of the topsoil's humidity, pH, microorganism, bacteria or breathability. It is occurring.

As a representative example, grass-planted topsoil is a state in which dead leaves of grass are continuously piled on the surface, and the topsoil is decayed black, or air permeability is not secured due to the inability to secure air permeability to the grassy topsoil surface. black rot, or placed in an excessively humid state is topsoil _{^{NO 3- NO 2 2 -, F}} 2 3+ is Fe ^{2 +} or SO ₄ ^{2 -} is transformed into H ₂ S is the surface soil gatah toxicity to topsoil rot There was a problem that the black layer is generated.

However, the method for removing the black layer generated from the above causes is not particularly suggested, and when the black layer is severe, there is a difficulty in transplanting new grass after removing all the grass of the topsoil.

The following is not a conventional technique for removing the black layer, but is a conventional representative technique for managing the grass.

Korean Patent Laid-Open No. 10-2009-0046901 relates to a lawn management system of a sports ground and a lawn management method of a golf course, and is a system for managing lawn conditions and oxygen levels of a plurality of ROIs in a golf course. An aeration conduit below the ground associated with the region and providing aeration to the region and configured to provide the aeration conduit with one of vacuum in vacuum mode and air pressure in pressure mode; Responding to a plurality of aeration subsystems including an air blower unit in fluid communication and to control the operation of the aeration subsystem corresponding to the detection of environmental parameters in the golf course area; Local control module-The control module is the vacuum mode and phase Operating the blower unit in repetitive cycles of intermittent operation in one of the pressure modes, each cycle comprising a blower-on mode and a blower-off mode, wherein the blower-on mode in each cycle Operating the blower unit for a first time interval and the blower-off mode suspends operation of the blower unit for a second time interval, and in communication with the local control module, the sensed environmental from the local control module. And a master control module for receiving area information including parameters and issuing commands to the local control module to operate the aeration subsystem in the intermittent operation cycle.

However, the prior art has a complicated configuration for operating the system, excessive cost for operating the system, resulting in a problem of low economical efficiency, and requires continuous research and development to solve this problem.

The present invention has been made in order to improve the problems according to the prior art of the method of removing the black layer of grass, the topsoil, such as a football field, playground, tennis court or golf course is planted in the state that the dead leaves of grass continuously stacked on the surface or a part of the surface soil black rot, grass is planted mothayeo ventilation on top soil surface not ensure the anaerobic bacteria to multiply, or a part of the surface soil black rot, placed in an excessively moist topsoil state nO ^{3 -} is nO _{² 2} ^-, F ₂ ³⁺ is Fe ^{2 +} or SO ₄ ^{2 -} and is transformed into H ₂ S is the surface soil gatah toxicity to top soil decay caused a problem that the black layer may be generated, the main object of the present invention is to provide a solution for this It is to be done.

The present invention is to realize the desired object as described above,

A perforating step of perforating a plurality of drainage holes having a diameter of 5 to 6 cm and a depth of 40 to 50 cm on a surface of grass-sewn topsoil at regular intervals; Soil transplant step of filling the functional soil containing the oxygen generator in the drain hole; Oxygen supply step of spraying water 1 to 4 times per 24 hours on the surface of the top of the grass planted in the soil transplantation step treated, the functional soil is 88 ~ 96.5wt% silica sand, 3-10wt% soil improver And it provides a method for removing the black layer of the grass is configured to mix 0.5 ~ 2wt% oxygen generator.

The black layer removal method of the grass according to the present invention as described above can obtain the effect of drying the moist topsoil which is one of the causes of the black layer by securing the topsoil as a functional soil filled in the drain hole, Oxygen generated by the oxygen generator contained in the soil to supply oxygen to the topsoil and the black layer to obtain the effect of removing and suppressing the reproduction of anaerobic bacteria which is one of the causes of the black layer, The effect of removing the black layer can be obtained.

1 is a block diagram showing a procedure for removing a black layer of grass according to a preferred embodiment of the present invention.
2 to 3 is a partial cross-sectional view showing a drain hole treated by the black layer removal method of the grass according to a preferred embodiment of the present invention.

The present invention relates to a black layer removal method of grass for removing the black layer generated on the surface or the inside of the grass-topped topsoil, having a diameter of 5-6cm and a depth of 40-50cm on the surface of the grass-topped topsoil. A perforating step of punching a plurality of drainage holes at predetermined intervals (S100); Soil transplant step (S200) for filling the functional soil containing the oxygen generator in the drain hole; The soil transplantation step (S200) oxygen treatment step (S300) for spraying water 1 to 4 times per 24 hours on the surface of the grass planted grass treatment step (S200); wherein the functional soil is silica sand 88 ~ 96.5wt%, It relates to a method for removing the black layer of turf, which is configured to mix 3-10 wt% of soil improver and 0.5-2 wt% of oxygen generating agent.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 3 showing embodiments of the present invention.

Specifically, the drilling step (S100) is a process of perforating a plurality of drain holes having a diameter of 5 ~ 6cm and a depth of 40 ~ 50cm at a predetermined interval on the surface of the grass topped soil, the soil transplantation step (S200) This is the step of drilling holes in the topsoil to fill the functional soil.

At this time, the size of the drain hole may have any size as long as the functional material including the oxygen generator contained in the functional soil can be smoothly delivered to the entire range of the topsoil, but the size of the drain hole according to the present invention is It is preferably configured to have a diameter of 5 ~ 6cm, a depth of 40 ~ 50cm, radially spaced 40 ~ 60cm.

That is, the horizontal cross-section of the drain hole of the present invention has a circular or polygonal shape, and the diameter of the drain hole is preferably 5 to 6 cm. If the diameter of the drain hole is less than 5 cm, the diameter of the drain hole is too small, so that the horizontal of the functional soil filled in the drain hole. When the amount of cross-section is small, the problem of shortening the functional soil duration of the functional soil occurs.If it exceeds 6 cm, the diameter is too large, and the functional material contained in the functional soil in the central axis of the drain hole among the functional soil filled in the drain hole. This problem is difficult to be spread in the horizontal direction and transmitted to the topsoil, so it is preferable to have a diameter within the above range.

In addition, the depth of the drain hole is preferably configured to have a 40 ~ 50cm to take into account that the thickness of the grass-topped topsoil, such as a general soccer field, tennis court or golf course composed of 40 ~ 45cm, which is the surface of the topsoil having a thickness within the above range This is to enable the functional soil to function from the position corresponding to the lower part of the black layer generated within the range of 4 to 10 cm in the surface of the topsoil.

More specifically, the present invention mainly uses oxygen as a method for removing the black layer, the oxygen is generated by the oxygen generator contained in the functional soil, and generated from a predetermined position corresponding to the lower portion of the black layer Oxygen moves in the surface direction and the horizontal direction of the topsoil, and exerts an effect of supplying oxygen to the black layer, and as a result, it is possible to realize the effect of removing the black layer generated by the reproduction of anaerobic bacteria.

In addition, the spacing between the plurality of drain holes in consideration of the diameter and depth of the drain hole in the above range, based on any one of the drain holes, it is preferable to have a gap between the adjacent drain and the drain hole 40 ~ 60cm, which is less than 40cm It has the effect that the functionality of the functional soil filled in the rear drain hole can affect all the whole ranges between the adjacent drain holes, but the functionality of the functional soil filled in one drain hole and the functional soil filled in the adjacent drain hole In this overlapping area, a problem may arise in which the economic efficiency is lowered, and when it exceeds 60 cm, the functionality by functional soils filled in adjacent drain holes may not be evenly transmitted throughout the horizontal direction of the topsoil. It is preferred to have a gap within.

In addition, the soil transplantation step (S200) is a process of filling the functional soil containing the oxygen generator in the plurality of drainage holes perforated in the topsoil by the drilling step (S100), it is preferable to fill the functional soil to the draining hole.

At this time, if the functional soil according to the present invention includes an oxygen generator capable of generating oxygen by reacting with water, any type of thing may be used, but in the present invention, 88 to 96.5 wt% of silica sand, soil improving agent 3 It is preferable to use a mixture of -10 wt% and 0.5-2 wt% of an oxygen generator.

That is, the silica sand as a configuration for ensuring the drainage by functional soil, it is preferable to use soto sand or baked silica, the soil sand or baked silica is a fine particle soil powder, bacteria, weed seeds by heating the general silica sand at high temperature or as removal of the birds, such as to secure ventilation and drainage of the surface soil into the drain hole filled state, suppressing the growth of anaerobic bacteria, and NO ^{3 -,} By preventing deformation of F ₂ ³⁺ or SO ₄ ^{2 -} and the like, the effect of suppressing the production of a black layer can be realized.

In connection with the above, if the silica contained less than 88t% of functional soil, the composition ratio of the soil improver or oxygen generating agent is relatively high, and if it exceeds 96.5 wt%, the soil improving agent or oxygen generation is reversed. It is preferable to have a composition ratio of 88 to 96.5 wt% due to a problem that the composition ratio of the agent may be too low.

In addition, the soil improving agent is a component for the functional soil to have a certain functionality, and various kinds of inorganic modifiers can be used as long as it can secure the functionality such as growth of grass, securing breathability, or inhibiting bacterial propagation.

At this time, the present invention can realize the effect of ensuring breathability and inhibiting bacterial propagation among the above effects by using at least one of isolite, zeolite or pearlite as the soil improving agent.

In other words, isolite, zeolite or pearlite is a porous inorganic modifier, which realizes the effect of ensuring the air permeability of the functional soil by including a large amount of pores in the particles. In addition, the zeolite is not only the above effects, but also a mineral combined with anions, alkali metals and alkaline earth metals formed by the combination of aluminum oxide and silicate oxide, has a strong antibacterial effect, and has the effect of preventing bacterial growth of functional soil.

Particularly, pearlite is a material made by heating volcanic pearl pearls at 850 ~ 1200 ℃, and using pearl phenomenon to expand the moisture (2 ~ 6%) inside when the pearl rock is momentarily heated to high temperature. It is a substance. That is, the pearlite is expanded and forms a predetermined air layer as pores generated therein, thereby obtaining the effect of ensuring the air permeability of the functional soil according to the present invention.

In addition, the oxygen generating agent reacts with water to generate oxygen, thereby preventing the formation of the black layer and realizing the effect of removing the generated black layer.

In connection with the above, when the oxygen generator is contained in the functional soil at a composition ratio of less than 0.5wt%, the oxygen generator composition ratio is too insignificant to decrease the oxygen generating ability, thereby insufficient ability to suppress and remove the black layer by oxygen. If a problem occurs and the content is more than 2wt%, the composition ratio of the oxygen generator is included too much, so that the grass is damaged by the heat generated during the reaction between the oxygen generator and the water. .

In addition, it will be apparent that the oxygen generating agent according to the present invention can be appropriately controlled within the composition ratio according to the generation degree of the black layer constituting the topsoil, the type of soil, the drainage state or the pH of the topsoil, etc. according to the judgment of those skilled in the art.

The oxygen generating agent according to the present invention may be any kind as long as it can react with water to generate oxygen. In the present invention, it is preferable to use inorganic peroxides.

In this case, the inorganic peroxides are compounds formed by substituting a metal in place of hydrogen of hydrogen peroxide (H ₂ O ₂ ), and the metal may be either an alkali metal or an alkaline earth metal, and the "-between oxygen atoms in a molecule" OO- "binding force is weak and exists in an unstable state, so there is a property to become a stable state. That is, the inorganic peroxides according to the present invention react with water to produce oxygen by reacting as shown in the following reaction formula, and the generated oxygen exerts an effect of providing oxygen to the topsoil, thereby suppressing or removing the formation of black layers. It is effective.

[Reaction Scheme 1]

Alkali metal peroxide: 2M ₂ O ₂ + 2H ₂ O → 4MOH + O ₂ + exothermic

(M: alkali metal)

Scheme 2

Alkaline Earth Peroxide: 2MO ₂ + 2H ₂ O → 2M (OH) ₂ + O ₂ + Exothermic

(M: alkaline earth metal)

In connection with the above, the oxygen generating agent according to the present invention is preferably used any one or more of the inorganic peroxides, but the relatively low reactivity among the inorganic peroxides can generate oxygen continuously for a period of time without a sudden reaction It is more preferable to use one or more of CaO ₂ or BaO ₂ having the ability to be present.

In addition, the soil transplantation step (S200) according to the present invention may be any method that can be mixed evenly by mixing the mixture of the functional soil of the configuration evenly filled in the drain hole, but the upper surface of the functional soil filled in the drain hole It is preferable to carry out compaction construction to pressurize to a certain pressure. In other words, if the density of the functional soil filled in the drain hole is too low, the topsoil collapses to be introduced into the drain hole, and if the density of the functional soil is too high, there is a problem that the drainage or aeration capacity by the functional soil is reduced, It is desirable to compact with suitable pressing force.

In addition, the functional soil may be filled in the drain hole in the state containing the oxygen generator of the same composition ratio, regardless of the depth of the drain hole having a predetermined depth as shown in Figure 2, as shown in Figure 3, the depth of the drain hole, deep The functional soil filled at the location of the oxygen generator is configured to be higher than the functional soil filled at the location corresponding to the shallow area, so that oxygen generated by the oxygen generator is diffused from the deep surface of the surface to the ground. It is desirable to be configured to act on the topsoil.

In connection with the above, when the functional soil is configured to have a higher composition ratio of the oxygen generator as it is filled in the deep position of the drain hole, the composition ratio of the oxygen generator may be configured within the range described above, and the coral Functional soils having different compositional ratios of genera may be composed of two or more layers.

In addition, the oxygen supply step (S300) according to the present invention is a process of spraying water 1 to 4 times per 24 hours on the surface of the top of the grass planted in the soil transplantation step (S200), and the oxygen generator contained in the functional soil Water is reacted to supply the produced oxygen to the topsoil.

That is, the water is preferably sprayed in an amount sufficient to absorb the water up to the underground end of the drain hole, depending on the degree of drainage of the topsoil, it is preferable that the water is repeated 1 to 4 times per 24 hours. At this time, if water is sprayed less than once every 24 hours, the oxygen production cycle is too long, which makes it difficult to continuously provide oxygen to the topsoil. If it is more than 4 times, oxygen is sprayed by the water sprayed with excessive frequency. It is preferable to spray water on the surface of the topsoil in a cycle within the above range because a problem occurs that the generated oxygen generating capacity of the oxygen generating agent is lowered.

In addition, the treatment period of the oxygen supply step (S300) can be applied to a variety of periods depending on the degree of black layer generated on the topsoil. In other words, if it is determined that the degree of generated black layer of turfgrass is not severe, the period of oxygen supply step S300 is shortened. If the degree of black layer is severe, the period of oxygen supply step S300 is long. It will be apparent that the configuration, and the appropriate time period is freely adjustable according to the judgment of those skilled in the art.

The following is a preferred embodiment of the black layer removal method of turf according to the present invention.

1. Drilling stage

Grass is planted, and a plurality of circular drainage holes having a diameter of 5 cm and a depth of 40 cm are perforated at 50 cm intervals on a portion of the surface of the soccer field where the black layer is formed with a thickness of about 6 cm on the surface of the topsoil.

2. Soil Transplantation Stage

In the drain hole, functional soil mixed with 80 kg of baked silica sand, 3 kg of zeolite, 3 kg of pearlite and 1 kg of calcium dioxide (CaO ₂ ) is packed and filled.

3. Oxygen supply stage

Water is sprayed twice per 24 hours to a predetermined portion of the football field treated with the soil transplantation step (however, the sprayed water was introduced to the underground end of the drain hole). The water spraying process was repeated for 10 days.

The above has been described with reference to a preferred embodiment of the present invention, but is not limited to the above embodiment, the person having ordinary skill in the art to which the present invention pertains through the above embodiments without departing from the gist of the present invention Can be implemented in a variety of changes.

S100: Punching Step
S200: Soil Transplantation Stage
S300: oxygen supply stage

Claims (4)

A perforation step (S100) of perforating a plurality of drainage holes having a diameter of 5 to 6 cm and a depth of 40 to 50 cm on the surface of the grass-sewn topsoil at regular intervals;
Soil transplant step (S200) for filling the functional soil containing the oxygen generator in the drain hole;
And the oxygen supply step (S300) of spraying water 1 to 4 times per 24 hours on the surface of the soil planted with the soil transplantation step (S200).
The functional soil,
88-96.5 wt% of silica sand, 3-10wt% of soil improver and 0.5-2wt% of oxygen generator.
The method of claim 1,
The soil improving agent,
A method for removing black layers of turf, characterized in that it is composed of one or more of isolite, zeolite or pearlite.
The method of claim 1,
The oxygen generator,
Black layer removal method of grass, characterized in that composed of one or more of CaO ₂ or BaO ₂ .
The method of claim 1,
The functional soil,
The method of removing the black layer of grass, characterized in that the higher the composition of the oxygen generating agent is filled in the place corresponding to the deep position of the drain hole.

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