JP2008297808A - Artificial turf pavement structure and method of constructing the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an artificial turf pavement structure which ensures suitable elasticity, has a simple structure, and contributes to reduction of construction costs, and also to provide a method of constructing the artificial turf pavement structure. <P>SOLUTION: The artificial turf pavement structure is a sheet body having artificial turf implanted therein. The artificial turf is made of a heated asphalt mixture, and granulated rubber mixed in asphalt as aggregate. The method of constructing the artificial turf pavement structure is composed of: a step of heating and drying a mixture of crushed stones and stone dust to a temperature of 200 to 250°C, and mixing the granulated rubber into the resultant mixture at room temperatures, to thereby obtain a composition for the artificial turf pavement structure; a leveling step of laying the composition for the artificial turf pavement structure and leveling the same; and a compaction step of rolling and compacting the leveled composition for the artificial turf pavement structure. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an artificial turf pavement structure and a construction method thereof. More specifically, the present invention relates to an artificial turf pavement structure that has moderate elasticity and is used in an artificial turf ball field facility such as a soccer field and a construction method thereof.

Conventionally, there is one described in Patent Document 1 as an artificial turf pavement structure. This artificial turf pavement structure has an asphalt emulsion sprayed on the base layer to ensure appropriate elasticity, and an elastic layer in which polymer granular materials made of rubber chips and the like are bound with resin on the base layer. It is a configuration.
An artificial turf pavement structure in which urethane resin is added to rubber aggregate has been proposed.
Japanese Utility Model Publication No. 1-69807

However, the artificial turf pavement structure shown in Patent Document 1 requires laborious construction, which increases the construction cost.
Further, in an artificial turf pavement structure in which urethane resin is added to rubber aggregate, when the rolling operation is performed during the construction, it is difficult for the urethane resin to be integrated with the elasticity of the rubber aggregate. For this reason, in order to obtain the pavement structure, a dedicated finisher (machine) is required for the production and leveling of the artificial turf pavement structure, which increases the construction cost.

  Then, this invention makes it a subject to provide the artificial turf pavement structure which can reduce moderate construction cost, and its construction method in view of the said subject, while ensuring a moderate elasticity.

  The present invention is a sheet-like artificial turf pavement structure for laying artificial turf, comprising a heated asphalt mixture, wherein granular rubber is mixed with asphalt as an aggregate.

  Like this structure (composition), the use of granular rubber as the aggregate of asphalt has a simple structure while ensuring adequate elasticity, and the asphalt and granular rubber are in close contact with each other when laid. Therefore, it is possible to spread using a general-purpose asphalt finisher screed without using a special device.

The artificial turf pavement structure of the present invention is characterized in that the granular rubber is foamed rubber.
As the foam rubber, it is possible to use the waste material by using a weather strip of automobile waste material, and it is possible to reduce the manufacturing cost.

  The artificial turf pavement structure of the present invention is characterized in that 13 to 27% by mass of granular rubber as an aggregate is mixed.

  The artificial turf pavement structure of the present invention is characterized in that 61 to 77% by mass of an aggregate made of crushed stone, sand and stone powder is mixed with 10 to 12% by mass of asphalt separately from the granular rubber. .

  In the artificial turf pavement structure of the present invention, the granular rubber has a particle size adjusted to 5 mm or less.

In the artificial turf pavement structure, it is preferable that the impact absorption rate by a predetermined testing machine is 50% or more in a state where long pile artificial turf is laid on the pavement. The prescribed tester is a DIN18032 tester based on the “Long Pile Artificial Grass Pitch Official Regulations” by the Japan Football Association. The “characteristic test for players” conducted by this tester is defined as “standard value 50% or more”. Depends on what is being done. In other words, when the long pile artificial turf is laid on the artificial turf pavement structure, the shock absorption rate of the artificial turf pavement structure is set to be the above-mentioned shock absorption rate.
In general, in an artificial turf ball field such as a soccer field, it is necessary to reduce the burden on the legs and feet during the player's play, so such a reference value is set.

  In addition, the artificial turf pavement structure (artificial turf base material) using the conventional water-permeable asphalt mixture does not provide sufficient shock absorption and tends to increase the burden on the player's legs. According to the pavement structure, necessary shock absorption can be obtained by adjusting the aggregate amount.

  The present invention is a method for constructing an artificial turf pavement structure composed of a mixture of crushed stone and stone powder, granular rubber and asphalt, and the mixture of crushed stone and stone powder is heated and dried at 200 to 250 ° C. Mixing granular rubber at room temperature, mixing asphalt to obtain a composition for artificial turf pavement structure, and laying and laying the composition for artificial turf pavement structure And a compacting step of compacting the composition for artificial turf pavement structure by rolling and compacting the composition.

In the construction method, a mixture of crushed stone and stone powder is heated to 200 to 250 ° C., but this temperature is higher than that in the case of kneading ordinary asphalt concrete.
As in the present invention, when kneading an artificial turf pavement structure composed of a mixture of crushed stone and stone powder, granular rubber, and asphalt, these must be higher than in the case of ordinary asphalt concrete kneading. Since it became clear that it was difficult to knead sufficiently, the mixture of crushed stone and stone powder was heated to 200 to 250 ° C. so that kneading with asphalt could be sufficiently performed.

  According to this method, by using granular rubber as the aggregate of asphalt, the structure is simple while ensuring appropriate elasticity, and the asphalt and granular rubber come into close contact with each other when laid, It is possible to spread using a screed of a general-purpose asphalt finisher without using a special device, and the construction cost can be reduced.

  The construction method of the artificial turf pavement structure of the present invention is characterized by using foamed rubber as the granular rubber.

  The construction method of the artificial turf pavement structure of the present invention is characterized in that in the laying step, the artificial turf pavement structure composition is laid so as to have a thickness of 3 to 5 cm.

The method for constructing an artificial turf pavement structure according to the present invention includes tightening the composition for an artificial turf pavement structure laid in the leveling step so that the density becomes 0.9 to 1.5 g / cm ³ in the compaction step. It is characterized by hardening.

  According to the artificial turf pavement structure of the present invention, by using granular rubber as the aggregate of asphalt, moderate elasticity can be ensured even with a simple structure (composition). Since the rubber and the granular rubber come into close contact with each other, it is possible to spread using a general-purpose asphalt finisher screed without using a special device, which can reduce construction costs. It becomes.

  According to the method for constructing an artificial turf pavement structure of the present invention, an artificial turf pavement structure composed of a mixture of crushed stone and stone powder, granular rubber, and asphalt is kneaded. These can be sufficiently kneaded by raising the mixing temperature compared to the above, and by using granular rubber as the asphalt aggregate, the structure is simple while ensuring adequate elasticity, and when laying Since the asphalt and the granular rubber come into close contact with each other, it is possible to spread using a screed of a general-purpose asphalt finisher without using a special device, and the construction cost can be reduced.

  Hereinafter, the present invention will be described based on specific embodiments. However, the present invention is not limited to the following embodiments, and the scope of the present invention includes modifications and improvements as appropriate to the following embodiments without departing from the spirit of the present invention. Is within.

Next, one embodiment of the method for manufacturing and constructing a paving body according to the first invention will be described in detail.
FIG. 1 is a cross-sectional view showing a state in which an artificial turf pavement structure is laid in one embodiment of the present invention. In this figure, 1 is a roadbed, 2 is an artificial grass pavement structure, 3 is a filler, and 4 is an artificial grass (long pile). The roadbed 1 is made of crushed stone.

Here, the structure of the filler 3 will be described. This is a rubber chip adjusted to a particle size distribution of less than 3.0 mm and 90% or more and less than 0.5 mm and 10% or less, a particle size distribution of less than 1.68 mm and 90% or more, 0 The cinnabar sand adjusted to 10% or less less than 21 mm is blended at a weight ratio of 1: 1 and provided to have a thickness of 40 mm from the upper surface of the base fabric.
An artificial turf (turf leaf) 4 is planted on the upper surface of the filler 3 so as to protrude. The artificial turf 4 is provided in a bundle of eight so as to protrude from the upper surface of the filler 3 by a length of about 25 mm. Such artificial turf 4 is arranged along the surface direction of the filler 3.

  The artificial turf pavement structure 2 of the present embodiment includes (A component) crushed stone, sand and stone powder, (B component) granular rubber (hereinafter referred to as “rubber powder”) adjusted to a particle size of 5 mm or less, and (C component). This is an artificial turf pavement structure 2 comprising straight asphalt as a constituent component, and is composed of 61 to 77 mass% of the A component, 13 to 27 mass% of the B component, and 10 to 12 mass% of the C component.

  When such an artificial turf pavement structure 2 is laid in an artificial turf ball field such as a soccer field, and laid on an artificial turf on a compacted pavement, the resilience of the B component (rubber powder) It is possible to simply construct a pavement that is integrated with the artificial turf and has an appropriate elasticity.

  The artificial turf pavement structure 2 of the present embodiment can be manufactured in an asphalt plant like the normal asphalt artificial turf pavement structure 2 and does not require a special machine or the like.

  Although the artificial turf pavement structure 2 of this embodiment can be manufactured in a normal asphalt plant, since the B component is charged at room temperature, the A component is heated as high as possible in the range of 200 to 250 ° C. Is desirable.

  In addition, the artificial turf pavement structure 2 of the present embodiment is spread by a finisher capable of adjusting the weight of the floating screed by hydraulic pressure, and can be constructed by rolling with a tandem roller of about 3 tons. Do not need.

Further, an elastic synthetic resin layer using an elastic synthetic resin may be provided on the upper surface of the artificial turf pavement structure 2. The artificial turf pavement structure 2 is brittle due to the incorporation of granular rubber, and there is a risk of peeling or collapsing near the surface when the laid artificial turf is used, but an elastic synthetic resin layer is provided. Therefore, such peeling and collapse can be suppressed.
The elastic synthetic resin layer may be formed of a layer of elastic synthetic resin having elasticity such as urethane resin, polyisobutylene resin, polyethylene resin, ethylene vinyl acetate copolymer, silicon resin, soft vinyl chloride resin, etc. It is preferable to separate the elastic synthetic resin into a solvent to form a synthetic resin-containing coating and apply it on the artificial turf pavement structure 2, and further to use it by separating it into an aqueous solvent that does not deteriorate the granular rubber. preferable.
A polymer emulsion paint formed by separating the above-mentioned elastic synthetic resin into an aqueous solvent using an admixture or the like is preferable as the one using such an aqueous solvent. The synthetic resin-containing paint may be applied by an appropriate method such as roller coating or brush coating. However, if spray coating is performed, an appropriate void is generated in the elastic synthetic resin layer. It is preferable that the water permeability of the body 2 can be maintained.

The artificial turf pavement structure 2 of the present embodiment can be used in any facility as long as it is a facility for laying artificial turf, but in particular, artificial turf laying in soccer fields, rugby fields, parks, schoolyards, etc. It can be suitably used for construction of paving bodies in facilities.
Hereinafter, the artificial turf pavement structure 2 of the present embodiment will be described in more detail for each component.

[Component A (crushed stone, sand and stone powder)]
A component which comprises the artificial turf pavement structure 2 of this embodiment is the crushed stone, sand, and stone powder used as an aggregate. Among these aggregates, crushed stones are road crushed stones defined in JIS A 5001, and S-5 (No. 7 crushed stones) is used. As for the sand, coarse natural sand is used. Furthermore, about the stone powder, the limestone powder for pavement prescribed | regulated to JISA5008 is used.

[B component (rubber powder)]
B component which comprises the artificial turf pavement structure 2 of this embodiment is the rubber powder used as an aggregate. This B component is preferably a rubber powder having a 4.75 mm sieve passing mass percentage of 100% and a 0.075 mm sieve passing mass percentage of 0%. Further, the B component is preferably 30 or less at 20 ° C. in the durometer type A specified in JIS K 7215.

[C component (straight asphalt)]
C component which comprises the artificial turf pavement structure 2 of this embodiment is a binder for couple | bonding A component and B component. This C component is paving petroleum asphalt specified in JIS K 2207, and the type thereof is not particularly limited, but 60 to 80 types can be easily procured.

[Production and construction method of paving bodies]
Next, one embodiment of the method for manufacturing and constructing a paving body according to the second invention will be described in detail.

  The production and construction method of the pavement according to the present embodiment includes (A component) crushed stone, sand and stone powder, (B component) rubber powder adjusted to a particle size of 5 mm or less, and (C component) straight asphalt as constituent components. When mixing with 61 to 77% by mass of component A, 13 to 27% by mass of component B and 10 to 12% by mass of component C, the component A is heated and dried to 200 to 250 ° C. (A) to obtain a composition for artificial turf pavement structure by mixing the component C, and to spread and lay the composition for artificial turf pavement structure. And a compacting step (b) of compacting the composition for an artificial turf pavement structure by rolling and compacting.

  The method for producing and constructing a pavement according to the present embodiment obtains a composition for artificial turf pavement structure in which the amount of asphalt is adjusted to 10 to 12% by the above-described step (a), and then artificially by the step (b). The artificial turf pavement structure 2 is formed as a pavement by laying the composition for the turf pavement structure on the ground or the like so as to pave, and rolling and compacting the laid composition for the artificial turf pavement structure.

The construction method of the artificial turf pavement structure 2 (pavement) of this embodiment is not particularly limited as long as it is a facility for laying artificial turf, but is particularly suitable for soccer fields, rugby fields, parks, schoolyards, etc. Can be used.
Hereinafter, each step (a) and (b) will be described more specifically.

[Step (a)]
This step (a) comprises (A component) crushed stone, sand and stone powder, (B component) rubber powder adjusted to a particle size of 5 mm or less, and (C component) straight asphalt. It heat-drys so that it may become -250 degreeC, Then, A component 61-77 mass%, B component 13-27 mass%, and C component 10-12 mass% are mixed.
That is,
1. A predetermined amount of No. 7 crushed stone and coarse sand heated to 200 to 250 ° C. with a dryer as an aggregate heating device is weighed with an aggregate meter and put into a mixer.
2. A predetermined amount of rubber powder at room temperature is charged into the mixer.
3. A normal amount of stone powder pressure-fed from a stone powder silo is weighed with a stone powder meter and automatically charged into the mixer at room temperature.
4). The No. 7 crushed stone, coarse sand, rubber powder and stone powder charged into the mixer in the above steps 1 to 3 are kneaded for about 20 seconds with the mixer.
5. The asphalt is sent from the asphalt tank heated to about 150 ° C. to the asphalt meter with a pump, and a predetermined amount is measured, and sprayed into the mixer at about 150 ° C.
6). Mix for about 40 seconds with a mixer to make an asphalt mixture.
7). Move from the mixer to the dump truck.
It is a process.

  If the temperature at which the A component is heated and dried is less than 200 ° C., then the B component is mixed at room temperature, the overall aggregate temperature is lowered, and the straight asphalt of the C component is difficult to coat on the aggregate. The durability as a paving body may be lowered. For this reason, the temperature of the aggregate is set higher than in the case of kneading ordinary asphalt concrete.

  As the A component, No. 7 crushed stone, coarse sand and limestone powder are preferably used, and as the B component, the 4.75 mm sieve passing mass percentage is 100%, and the 0.075 mm sieve passing mass percentage is 0%. In the durometer type A whose rubber hardness is defined in JIS K 7215, rubber powder of 30 or less at 20 ° C. is suitable. Further, as the C component, paving petroleum asphalt is suitable. Thus, in order to use the rubber powder as an aggregate of asphalt concrete, the particle size is selected by sieving.

[Step (b)]
In the step (b), the artificial turf pavement structure composition obtained as described above is laid on a ground or the like and then compacted by rolling. About the method of laying, the method of laying in the place to construct with the asphalt finisher of a floating screed can be employ | adopted similarly to normal asphalt pavement.

  As the asphalt finisher, a finisher capable of adjusting the weight of the floating screed by hydraulic pressure is selected. When the weight cannot be adjusted, there is a possibility that a smooth pavement surface cannot be constructed by dragging the composition for an artificial turf pavement structure.

  As a method of pressurizing and compacting the laid artificial grass pavement structure composition, for example, a method of compacting using a tandem roller having a weight of about 3 tons is preferably used.

  When pressurizing and compacting the composition for artificial turf pavement structure, using a compacting machine that oscillates, such as a vibrating roller or a vibrating plate, the mixture binds due to the repulsion of the B component rubber powder, that is, granular rubber Therefore, a compacting machine that does not vibrate for compaction is suitable.

When the artificial turf pavement structure composition is compacted by rolling, it is preferable to compact the resulting artificial turf pavement structure 2 so that the density of the artificial turf pavement structure 2 is 0.9 to 1.5 g / cm ³ . In addition, since a compaction density changes with the mixture ratio of B component, this is mix | blended so that it may become the said density.

When the blending ratio of the B component is as large as about 27% by mass, and the density of the pavement is less than 0.9 g / cm ³ , the pavement may be insufficiently compacted and easily damaged. . On the other hand, when the blending ratio of the component B is about 13% by mass and the density of the paved body exceeds 1.5 g / cm ³ , the paved body becomes too hard and the elasticity may be reduced.

As described above, the artificial turf pavement structure 2 according to the present embodiment can ensure appropriate elasticity with a simple structure by using rubber powder as an aggregate of asphalt (straight asphalt). In addition, asphalt and rubber powder come into close contact with each other when they are laid, so it is possible to spread using a general-purpose asphalt finisher screed without using a special device. Can be suppressed.
In addition, it was found that the necessary water permeability can be secured.

  EXAMPLES The present invention will be described in detail below with reference to examples, but the present invention is not limited to these examples. In the following, (%) is based on mass. In addition, various measurements in the examples were based on the following methods.

<Consolidation density and compaction>
In accordance with the method for preparing a specimen for the Marshall stability test, a 4.5 kg rammer is dropped from a height of 45.7 cm so that the specimen height is about 5 cm with a cylindrical mold having a diameter of 10.16 cm. A specimen of the artificial turf pavement structure 2 was produced using the apparatus. The specimen was tamped on both sides 25 times.

<Shock absorption rate>
On the artificial turf pavement structure 2 laid and compacted on the basis of the impact value measured on the concrete when a 20 kg weight was dropped from a height of 55 mm with a test machine specified in DIN 18032, Alternatively, the impact absorption rate was calculated by the following (Equation 1) from the impact value measured by laying the artificial turf on the artificial turf pavement structure 2.
(Formula 1)

<GB rebound resilience>
Measurements were made in accordance with the GB rebound test described in the construction guidelines for outdoor physical education facilities (issued by the Japan Physical Education Facility Association). Specifically, the rebound height when a golf ball is dropped from the height of 1 m onto the surface of the sample (artificial turf pavement structure 2 which is a pavement) is measured, and the ratio (% to the drop height of 1 m) ).

<SB rebound resilience>
Measurements were made in accordance with the SB rebound test described in the construction guidelines for outdoor physical education facilities (issued by the Japan Physical Education Facility Association). Specifically, the rebound height when a 1-inch diameter steel ball was dropped from a height of 1 m onto a sample, that is, the surface of a pavement was measured and calculated as a percentage (%) with respect to a drop height of 1 m. .

<Water permeability>
It measured based on the on-site water permeability test method described in the pavement test method manual. Specifically, the time for 400 cc of water to flow down was measured, and the amount of water that flowed down per 15 seconds was determined as the water permeability (cc / 15 seconds) from the measured value.

Example 1
In the present Example, the artificial turf pavement structure 2 was manufactured by the following method, the obtained artificial turf pavement structure 2 was compacted, a specimen was produced, and the above-described various measurements were performed.

In this example, dried No. 7 crushed stone, coarse sand, and stone powder were prepared as 4,361 g, 315 g, and 623 g, 931 g of foam rubber powder as B component, and 770 g of straight asphalt 60-80 as C component, respectively. .
In this embodiment, the A component is 75.7% by mass, the B component is 13.3% by mass, and the C component is 11% by mass.

  In Table 1, No. 7 crushed stone, coarse sand (river sand), stone powder and foam rubber used in this example are 13.2 mm, 4.75 mm, 2.36 mm, 0.6 mm, 0.3 mm,. The percentage by weight passed through the 15 mm and 0.075 mm sieves is shown.

  First, 4,361 g of A component No. 7 crushed stone, 315 g of coarse sand, and 623 g of stone powder were weighed and cured for 12 hours or more in a constant temperature drying oven at 170 ° C., and then transferred to an asphalt mixer set at 160 ° C. at room temperature B. At the same time, 931 g of foam rubber powder as a component was added and mixed for about 1 minute. After that, 770 g of C component straight asphalt 60-80 heated to 150 ° C. was put into an asphalt mixer and mixed for about 2 minutes.

  Next, 6,200 g of the obtained composition for artificial turf pavement structure was weighed, put into a form for wheel tracking test, and compacted with a hand roller to obtain a specimen. Here, (Table 2) shows the formulation of component A, component B and component C, and various measurement results at a test temperature of 20 ° C.

(Example 2)
In this embodiment, as the A component, 3,696 g and 528 g of dried No. 7 crushed stone and stone powder were prepared, respectively, as foamed rubber powder was prepared as 1,056 g as B component, and 720 g of straight asphalt 60-80 was prepared as C component.
In this embodiment, the A component is 70.4% by mass, the B component is 17.6% by mass, and the C component is 12% by mass.

The A, B, and C components weighed above were mixed with an asphalt mixer in the same manner as in (Example 1), and 5,265 g of the obtained artificial turf pavement structure 2 was weighed (Example 1). Specimens were prepared in the same manner as described above.
In this example, the formulation of component A, component B and component C, and various measurement results at a test temperature of 20 ° C. are shown in Table 2 above.

(Example 3)
In this example, dried No. 7 crushed stone, coarse sand, stone powder 4,669 g, 315 g, 623 g, 623 g of foamed rubber powder as B component, and 770 g of straight asphalt 60-80 as C component were prepared.
In this embodiment, the A component is 80.1% by mass, the B component is 8.9% by mass, and the C component is 11% by mass.

The A, B and C components weighed above were mixed with an asphalt mixer in the same manner as in Example 1, and 6,705 g of the obtained artificial turf pavement structure 2 was weighed. A specimen was prepared.
The formulation of the A component, the B component, and the C component in this example, and various measurement results at a test temperature of 20 ° C. are shown in the above (Table 2).

Here, the artificial turf ground was formed using the artificial turf pavement structure 2 and the artificial turf 4 of Examples 1 to 3, respectively, and the impact absorption rate of the artificial turf ground was measured.
The artificial turf 4 is grouped into 8 pieces (bundles) and planted so as to protrude by a length of about 65 mm from the upper surface of the polypropylene resin base fabric. They were neatly arranged vertically and horizontally on the top surface of the base fabric. The artificial turf 4 was made of polystyrene, and one artificial turf 4 had a rectangular cross section formed with a width of 1.35 mm and a thickness of 0.13 mm. The vertical interval of the 8 artificial grasses 4 was set to 6.8 mm, and the horizontal interval was set to 19.1 mm.

A filler 3 was laid between the eight artificial grasses 4. The filler 3 is a mixture (compound) of rubber chips and cinnabar. The particle size distribution of the rubber chip is less than 3.0 mm and 90% or more and less than 0.5 mm and 10% or less. The particle size distribution of cinnabar is less than 1.68 mm and 90% or more and 0.21 mm and 10% or less. Was blended at a weight ratio of 1: 1. The filler 3 having such a structure was filled with a thickness of 40 mm from the upper surface of the base fabric, and the artificial turf 4 was provided so as to protrude from the upper surface of the filler 3 by a length of approximately 25 mm.
As a result, the impact absorption rate of the artificial grass ground in Example 1 was 58.9%, the impact absorption rate of the artificial grass ground in Example 2 was 61.7%, and the impact absorption rate of the artificial grass ground in Example 3 was 58. It was found that all of them satisfied the condition of 50% or higher shock absorption rate based on the “Long pile artificial turf pitch official regulations” by the Japan Football Association.

Sectional drawing which shows the laying state of the artificial turf pavement structure in one Embodiment of this invention

Explanation of symbols

  1 ... Roadbed, 2 ... Artificial grass pavement structure, 3 ... Filler, 4 ... Artificial grass

Claims (9)

  An artificial turf pavement structure, which is a sheet-like artificial turf pavement structure for laying artificial turf, comprising a heated asphalt mixture, and granular rubber mixed with asphalt as an aggregate.   2. The artificial turf pavement structure according to claim 1, wherein the granular rubber is foamed rubber.   The artificial turf pavement structure according to claim 2, wherein granular rubber as an aggregate is mixed by 13 to 27 mass%.   The artificial turf pavement structure according to claim 3, wherein 61 to 77 mass% aggregate made of crushed stone, sand and stone powder is mixed with 10 to 12 mass% asphalt separately from the granular rubber. .   The artificial turf pavement structure according to any one of claims 1 to 4, wherein the particle size of the granular rubber is adjusted to 5 mm or less. A method for constructing an artificial turf pavement structure comprising a composition of crushed stone and stone powder, granular rubber, and asphalt,
A step of heating and drying a mixture of crushed stone and stone powder to 200 to 250 ° C., mixing this with granular rubber at room temperature, mixing asphalt to obtain a composition for artificial turf pavement structure, and composition for artificial turf pavement structure Construction of an artificial turf pavement structure comprising a laying step of laying and laying an object, and a compacting step of rolling and compacting the laid composition for an artificial turf pavement structure Method.   The method for constructing an artificial turf pavement structure according to claim 6, wherein foamed rubber is used as the granular rubber.   The method for constructing an artificial turf pavement structure according to claim 6 or 7, wherein, in the laying step, the artificial turf pavement structure composition is laid so that the thickness thereof is 3 to 5 cm. The composition for an artificial turf pavement structure laid in the laying step is compacted to a density of 0.9 to 1.5 g / cm ³ in the compaction step. The construction method of the artificial turf pavement structure in any one of.

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