JP4747225B1 - Grass prevention greening sheet - Google Patents

Abstract

An object of the present invention is to prevent the growth of flying seeds and buried seeds on slopes and bare land, and at the same time allow only the growth of the intended introduced seeds, and has long-term effects of herbicidal and greening as well as surface erosion prevention. Provide grass planting sheets.
A herbicidal greening sheet 1 includes a first layer 2 made of a short fiber nonwoven fabric having water repellency, a second layer 3 made of a long fiber nonwoven fabric having water permeability and water retention, a first layer 2 and a first layer 2. The introduced seed 7 held between the two layers 3 is integrated, and the first layer 2 is configured to inhibit root penetration of the flying seed 10 and to allow germination penetration of the introduced seed 7. ,
The second layer 3 is configured to inhibit germination penetration of the buried seed 12 and to allow root penetration of the introduced seed 7 and to supply water to the root 9 of the introduced seed 7.
[Selection] Figure 3

Description

  The present invention relates to a first layer made of a short fiber nonwoven fabric having water repellency, a second layer made of a long fiber nonwoven fabric having water permeability and water retention, and an introduced seed held between the first layer and the second layer. , An easy-to-lay grass-proofing sheet that prevents weeds from flying seeds and buried seeds on road slopes and farmland, and enables greening with the intended introduced seeds About.

Conventionally, greening of road slopes has been carried out by spraying soil, vegetation sheets, and rapid greening by alien species. Although these methods are greened in the short term, weeds and the like often invade due to depletion of nutrient water and erosion of the ground.
In addition, a weedproof sheet that prevents weeds and the like from entering has also been constructed and has a weedproof effect in the short term, but there is a problem that the effect is not sustainable due to damage due to deterioration of the sheet. It was.
In addition, the vegetation sheet and the weed protection sheet are damaged during the laying period, so that rainwater or the like penetrates into the ground, preventing the erosion of the slope.
In order to solve such a problem, a technique capable of preventing grass and greening and further reinforcing the ground has been developed, and several inventions have already been disclosed.

Patent document 1 has the name “anti-grass revealing sheet and its manufacturing method”, and can be used to prevent grass and replant the ground at the same time. An invention relating to a grass-proofing sheet that is easy to lay is disclosed.
Hereinafter, the invention disclosed in Patent Document 1 will be described. The herbicidal greening sheet according to Patent Document 1 includes a first layer in which micropores are formed in a biodegradable long-fiber nonwoven fabric, a second layer that has biodegradability and holds plant seeds, A third layer made of a web having degradability and water retention performance is laminated, and the first to third layers are integrated by interlacing the constituent fibers of the first layer and the third layer. It is characterized by being made.
As for the detailed structure, it is preferable that the first layer of the long-fiber nonwoven fabric is partially thermocompression-bonded with a biodegradable thermoplastic polymer, and further has micropores formed by needle punching. . In the second layer, a seed tape, a seed sheet and the like are held and fixed by a biodegradable material. The third layer is composed of short fibers made of a biodegradable thermoplastic polymer and cellulose short fibers having water retention. Then, these three layers are stacked and subjected to the needle punching process described above, so that the constituent fibers are three-dimensionally entangled and all the layers are integrated.
The grass repellent sheet having such a configuration has a herbicidal effect by the first layer being composed of a non-woven fabric, and the seeds retained in the second layer by the formation of micropores. Enables germination. In addition, the third layer has water retention performance and can be made bulky by being formed from thermoplastic polymer short fibers and cellulosic short fibers, so that it can follow the unevenness of the ground well. Can do. Therefore, seeds can be grown, and the ground can be protected and greened simultaneously.
Moreover, since all the layers are biodegradable, it is not necessary to collect materials.

Next, Patent Document 2 discloses an invention relating to a weedproof mat having the name “soilproof mat with ground reinforcement performance” and having an excellent grassproof effect and also having ground reinforcement performance.
The mat for grass protection according to Patent Document 2 includes a support mat having a three-dimensional network structure having a predetermined thickness and a cover sheet superimposed on the upper surface. The support mat includes a plurality of striate bodies that extend while intersecting in the horizontal direction, the thickness direction, and the diagonal direction, and has a space that allows weeds and the like to grow therein. The cover sheet has water permeability and translucency, and inhibits penetration of plants grown inside the support mat.
In this grass protection mat, a cover sheet having water permeability and light transmission is superimposed on the top surface of the mat, so that water and sunlight pass through the cover sheet and also through the support mat to reach the ground. Therefore, even if the mat is laid, the seeds in the soil can germinate and can continue to grow in the voids inside the mat. However, since there is a cover sheet, it cannot penetrate and appear on the surface. Therefore, the roots of the grown plants are stretched deep into the ground.
Further, even if flying seeds fall on the mat, the support mat has a predetermined thickness, so that the distance from the flying seeds to the ground is relatively long and the flying seeds cannot be rooted on the herbicidal mat.
As described above, the mat for herbicidal protection according to Patent Document 2 is able to grow a plant in the mat space, but its buds cannot penetrate the surface, and weeds derived from flying seeds cannot take root. Excellent effect. Furthermore, since the plant roots are stretched deep from the inside of the mat, the ground can be reinforced.

And in patent document 3, it is the name of "vegetation mat", the familiarity to a slope is favorable, and it can perform the germination and growth of a plant seed favorably, and also grows this and greens a slope. An invention relating to a vegetation mat is disclosed.
In the vegetation mat according to Patent Document 3, plant seeds and the like are interposed between front and back sheets that can be decomposed entirely or partially, and the small size that enables germination and growth of plant seeds on the outer surface side of the front sheet A corrosive net with is attached. Further, a corrosion-resistant net having a large texture that does not get entangled with the plant trunk during plant growth is attached to the outer surface side of the net.
In the vegetation mat having such a structure, since the front and back sheets have flexibility, they can be easily adapted to the slope and can be in close contact with each other. Moreover, since a corrosive net having a small texture is attached to the outer surface side of the front sheet, it is possible to prevent the plant seeds and the like that have been interposed from flowing away. Furthermore, since a corrosion-resistant net having a large scale is attached to the outer surface side of the net, it guarantees reliable laying on the slope and does not hinder plant growth. Furthermore, since this corrosion-resistant net corrodes after the growth of the plant, it can be left on the slope together with the front and back sheets and the corrosive net and is excellent in environmental greening.

JP 2006-180787 A Japanese Patent No. 3366958 JP-A-6-146291

In the invention disclosed in Patent Document 1, the first layer has a herbicidal effect by being composed of a long-fiber nonwoven fabric, and the seeds held in the second layer by being formed with micropores Enables germination. Moreover, since the third layer has water retention performance and can follow the unevenness of the ground well, it can be rooted and seeds can grow. Therefore, weeding and greening of the ground can be performed simultaneously. Moreover, since all the layers are biodegradable, it is not necessary to collect materials after laying.
However, since the first layer is biodegradable, it gradually decomposes while it is laid, so that the roots of the seeds such as weeds flying on the surface of the first layer are corroded. there is a possibility. When this happens, the herbicidal effect gradually decreases, and the growth of seeds held in the second layer is hindered by weeds. Furthermore, there is no description of the duration of the herbicidal effect, and the long-term effect is unknown.
In addition, whether or not the third layer can follow the unevenness of the ground is determined depending on the constituent ratio of the short fibers made of the thermoplastic polymer and the cellulose short fibers having water retention. Therefore, since it seems practically difficult to know the composition ratio that best suits the individual ground shape and rainfall conditions, it may not always be possible to follow. Therefore, in this case, if the sheet is laid on an inclined surface instead of a flat ground, the sheet may slip off from the ground and a greening effect may not be sufficiently obtained.
Therefore, in the invention disclosed in Patent Document 1, there is a possibility that the herbicidal greening effect may not be generally predicted due to the laying situation or changes over time, and it may be difficult to determine which configuration sheet to use. .

Next, in the invention disclosed in Patent Document 2, a plant can grow only in the mat space, and the buds do not appear on the surface, and the weeds derived from flying seeds cannot take root, thus preventing the herbicidal effect. Is excellent. Furthermore, since the plant roots from inside the mat are stretched deeply, the ground can be reinforced.
However, it is questionable whether the plants inside the mat are still viable after they have grown sufficiently and filled the gap. This is because plants are generally vulnerable to heat, and when they are overcrowded, the air permeability becomes poor. Furthermore, since it is covered with a cover sheet, it will die if it gets steamed. In addition, when exposed to intense sunlight in the summer, even if the cover sheet itself has heat resistance, the same danger can be considered because heat is transmitted to the plants under it. In this case, since the amount of roots stretched deeply is gradually reduced, there is a risk that the reinforcing effect of the ground is lowered.
In addition, weed seeds in the soil will not be able to appear through the surface because of the cover sheet, even if it germinates. For example, it is not suitable for growing only the desired plant types. Therefore, it seems difficult to apply to greening.
Therefore, in the invention disclosed in Patent Document 2, there is no description regarding a clear period for the continuation of the ground reinforcement effect, and it is unclear whether this effect will be sustained for a long period of time. Moreover, although it has a herbicidal effect, it is difficult to have a greening effect, and there may be a problem in landscape.

Furthermore, in the invention disclosed in Patent Document 3, since the front and back sheets of the vegetation mat are provided with flexibility, they can be easily adapted to the slope and can be in close contact with each other. In addition, the loss of plant seeds and the like interposed by a corrosive net having a small texture can be prevented. Furthermore, the corrosion-resistant net with a large scale ensures a reliable laying on the slope and does not impede plant growth. Therefore, the vegetation mat can be left on the slope semipermanently and is excellent in environmental greening.
However, from the description that the front sheet is partially soluble and the back sheet is water-soluble, it is conceivable that the seeds of flying weeds will take root over time. There is a possibility that weeds may inhibit the growth of intervening plants, and at this time, there is a possibility that the intended planting will not be performed.
In addition, there is a description that a corrosion-resistant net with a large scale ensures a secure laying on the slope, but the net itself is considered to have flexibility, so the sheet is attached to the slope. It is unclear whether it can be maintained for a long period of time, and there is no description of its specific means.
As described above, in the invention disclosed in Patent Document 3, greening by an intended plant is not performed, and there is a possibility that the mat cannot be left on the slope semipermanently.

  The present invention has been made in response to such a conventional situation, and inhibits the growth of flying seeds and buried seeds, and at the same time allows only the growth of the intended introduced seeds, An object of the present invention is to provide a herbicidal greening sheet that has a long-lasting effect of preventing greening and erosion of the ground surface.

In order to achieve the above object, the herbicidal greening sheet according to the invention of claim 1 has a first layer made of a short fiber nonwoven fabric having a water repellency with a basis weight of 45 to 150 g / m ² and a tensile strength of 50. A second layer made of a long-fiber non-woven fabric having water permeability and water retention of ˜500 N / 5 cm and a water permeability coefficient of 10 ⁻³ to 10 ⁻¹ cm / sec, and held between the first layer and the second layer The introduced seed is characterized by an integrated structure.
The grass-proofing sheet having the above-described structure is laid so that the first layer is the uppermost layer, the introduced seed is placed on the lower surface thereof, and the second layer is further placed on the lower surface thereof, and this is in close contact with the slope. Since the first layer has water repellency, it brings about an effect that it is difficult to retain moisture on the surface of the first layer. As a result, an effect of inhibiting the rooting of seeds flying to the upper part of the first layer is brought about.
Moreover, since it consists of a short fiber non-woven fabric, the weaving of the fibers is loose and the introduced seed buds tend to penetrate through in a zigzag shape.
Next, since the second layer has water permeability, it has an action of sucking up moisture on the ground surface by capillarity and reaching the introduced seed. In addition, since it has water retention at the same time, the above-mentioned moisture is retained in the second layer for a certain amount and for a certain period, and the introduced seed or its root is kept in contact with moisture. Moreover, since it consists of a long-fiber non-woven fabric, it tends to make it difficult to penetrate the seeds of buried seeds because the weaving of the fibers is hard.
And since the introduced seed is held between the first layer and the second layer, the seeds are prevented from being washed away.
In addition, since the first layer, the second layer, and the introduced seed are integrated, they are not shifted from each other when laid.

Next, anti-grass Green sheet according to the second aspect of the present invention, in the anti-grass Green sheet according to claim 1, basis weight of the first layer is 45~150g / m ^2, rooting of flying seeds It is characterized in that penetration is inhibited and germination penetration of the introduced seed is possible.
In proof grass greening sheet having the above structure, the basis weight of the first layer since it is 45 g / m ² or more, the water supply is not performed to the flying seminal roots water passage into the interior first layer is not formed. Further, since the basis weight is 150 g / m ² or less, germination of the introduced seed is not hindered.
In addition, it has the same action as the herbicidal greening sheet according to claim 1.

Furthermore, the grassproofing sheet according to the invention described in claim 3 is the grassproofing sheet according to claim 1 or 2, wherein the second layer has a tensile strength of 50 to 500 N / 5 cm, It is characterized in that it is configured to inhibit germination penetration of the seed and to allow root penetration of the introduced seed.
Here, in general, the root elongation force is larger than the bud elongation force. Therefore, when the second layer has a tensile strength of 50 N / 5 cm or more in the grass-proofing sheet having the above structure, the root of the introduced seed can be penetrated, but the bud of the buried seed cannot be penetrated, and this growth is suppressed. The On the other hand, the tensile strength of 500 N / 5 cm or less is limited to a strength range in which the root of the introduced seed can penetrate, and has the effect that the extension of the introduced seed root to the ground is not inhibited. .
In addition, it has the same action as the herbicidal greening sheet according to claim 1 or claim 2.

Next, the grass revegetation sheet according to claim 4 is the grass revegetation sheet according to any one of claims 1 to 3, wherein the water permeability coefficient of the second layer is 10 ⁻³ to 10. ^-1 cm / sec, characterized in that it can be supplied to the root of the introduced seed.
In the grass-proofing sheet having the above-described structure, since the water permeability coefficient of the second layer is 10 ⁻³ cm / sec or more, the moisture content can be quickly increased with respect to both the moisture from the ground and the moisture transmitted through the first layer. In addition to being infiltrated, it is 10 ^-1 cm / sec or less, so that excessive moisture permeation is released from the gaps between the fibers.

And the grass prevention greening sheet | seat which concerns on invention of Claim 5 is a grass prevention greening sheet | seat of any one of Claim 1 thru | or 4, Furthermore, the reinforcement net | network is further piled up on the 1st layer of the 1st layer. It is characterized by its structure.
In the grass-proofing sheet having the above-described configuration, the reinforcing layer is further overlapped to prevent the first layer from being unexpectedly damaged or peeled off from the second layer.

Furthermore, the herbicidal greening sheet according to the invention described in claim 6 is the grassproofing greening sheet according to any one of claims 1 to 5, wherein a water-retaining nonwoven fabric is stacked on the lower layer of the second layer. It is characterized by being.
In the herbicidal planting sheet having the above-described structure, more water is retained in the lower layer of the second layer without reducing root penetration to the introduced seed of the second layer, and only water supply to the root of the introduced seed is performed. To increase.

In the herbicidal greening sheet according to claim 1 of the present invention, it is difficult for water to stay on the surface of the first layer due to water repellency, and it prevents seeds that have jumped to the upper part of the first layer and causes the seeds to die. it can. At the same time, since the moisture remaining on the surface of the first layer is easily moved, the surface is easily dried by the wind or the inclination of the sheet, and the surface can be quickly dried. Therefore, the flying seeds cannot root and fall into death, so that the herbicidal effect can be exhibited.
Moreover, since the short fiber nonwoven fabric tends to penetrate the buds of the introduced seed, it can be extended. In addition, since the first layer is not lifted by germination, this prevents the first layer from being peeled off and ensures the long-term stability of the sheet laying.
Furthermore, since the second layer has a water-permeable action of sucking up moisture on the ground and reaching the introduced seed, the introduced layer can be absorbed and rooted. At the same time, the second layer has a water retention function of retaining a certain amount of moisture for a certain period of time, so that the introduced seeds are prevented from drying and rooting and growth are possible.
By this rooting and germination, the introduced seed can penetrate the first layer and the second layer, so that strong bond with both layers occurs. Furthermore, since the seeds are deeply rooted deeply in the ground when the introduced seeds grow to a certain extent, the sheet and the ground surface are maintained in close contact with each other, so that the entire sheet can be prevented from peeling off from the ground surface, and the erosion of the ground surface can be prevented. Can do.
Further, since the long fiber nonwoven fabric tends to make it difficult to penetrate the seed buds, this elongation is inhibited and constitutes one factor of the herbicidal effect.
Next, since the introduced seed is held between the first layer and the second layer and the seeds are prevented from flowing away, the seed growth rate on the sheet is high without causing germination outside the target place. Therefore, reliable greening can be realized.
In addition, since the first layer, the second layer, and the introduced seed are integrated and do not deviate from each other at the time of laying, laying is easy even on an inclined surface or an uneven surface, and the work is not time-consuming.
Furthermore, since the complete laying state is continued for a long period of time, the above-mentioned effects of preventing grass, greening and erosion continue to be exhibited.

In the herbicidal planting sheet according to claim 2 of the present invention, water supply to flying seeds is not performed and the germination of introduced seeds is not hindered, so that the growth of weeds derived from flying seeds is suppressed. It is possible to continue the growth of the introduced seed buds and to perform greening only with the target plant.
In addition, it has the same advantageous effect as the grass-proofing sheet according to claim 1.

In the herbicidal planting sheet according to claim 3 of the present invention, the buds of the buried seeds cannot penetrate and the growth is suppressed, while the growth of the introduced seed roots is not inhibited, so that the weeds derived from the buried seeds grow. It is possible to continue the growth of the introduced seed roots while suppressing the above, and to perform greening only with the target plant.
In addition, it has the same advantageous effect as the grass-proofing sheet according to claim 1 or 2.

In the herbicidal planting sheet according to claim 4 of the present invention, it is essential for germination of seeds because rapid moisture permeation can be achieved with respect to both moisture from the ground and moisture that permeates the first layer. Water supply, which is a simple condition, is always performed, and the introduced seeds can germinate. Moreover, since it prevents that a water | moisture content penetrate | invade into the space | gap between fibers excessively, it can prevent that the weight of a 2nd layer increases and slips off from a slope by excessive penetration. And it can avoid that the softness | flexibility of a 2nd layer falls by the space | gap being substituted with a water | moisture content, and the adhesiveness to a ground plane is lost.
In addition, it has the same advantageous effect as the grass-proofing sheet according to any one of claims 1 to 3.

In the herbicidal planting sheet according to claim 5 of the present invention, it prevents the unexpected breakage of the first layer and the peeling from the second layer, thereby preventing the seeds from flowing away more strongly. It can protect the seeds and promote the resulting growth. Therefore, the growth rate of the introduced seed on the sheet is increased, and the greening effect can be improved.
Further, since the product life of the sheet itself is extended by preventing breakage and the like, it is possible to exert a herbicidal effect and a ground surface erosion preventing effect in addition to the greening effect over a longer period of time.
In addition, having the same beneficial effects as anti-grass Green sheet according to any one of claims 1 to 4.

In the herbicidal greening sheet according to claim 6 of the present invention, the water retention nonwoven fabric increases only the water supply to the root of the introduced seed without reducing the penetration of roots to the introduced seed of the second layer. It is possible to promote the growth of the introduced seed roots and to improve the greening effect as compared with the case where there is no. It is also possible to improve the adhesion to the ground plane.
In addition, it has the same advantageous effect as the grass prevention greening sheet of any one of Claim 1 thru | or 5.

It is sectional drawing of the grass prevention greening sheet | seat which concerns on Example 1. FIG. It is an external appearance perspective view of the grass prevention greening sheet which concerns on Example 1. FIG. It is the elements on larger scale of the cross section of the grass prevention greening sheet which concerns on Example 1. FIG.

The grass revegetation sheet of Example 1 according to the present invention will be described in detail with reference to FIGS. FIG. 1 is a cross-sectional view of a herbicidal greening sheet according to Example 1, and FIG. 2 is an external perspective view thereof. FIG. 3 is a partially enlarged view. 2 and 3, the same reference numerals are given to the components shown in FIG. 1, and descriptions thereof are omitted.
As shown in FIG. 1, the herbicidal planting sheet 1 according to Example 1 has a three-layer structure in which an introduced seed layer 4 is sandwiched between a first layer 2 and a second layer 3. . Further, a reinforcing net 5 is provided above the first layer 2, and a water retaining nonwoven fabric 6 is added to the lower layer of the second layer 3. These are in close contact with each other and have an integrated structure.
Then, as shown in FIG. 2, the reinforcing net 5 is used as the uppermost layer and the water-retaining nonwoven fabric 6 is used as the lowermost layer so that it is laid on the ground surface. The fixing method at this time may not be particularly taken, but peeling or the like of the entire sheet is prevented by fixing separately on the inclined surface or the uneven surface.
FIG. 2 shows a state in which the introduced seed 7 included in the introduced seed layer 4 has sprouted between the reinforcing nets 5.

The first layer 2 shown in FIG. 3 is composed of a short fiber nonwoven fabric having water repellency. For example, polyester fiber or polylactic acid fiber is desirable. However, acrylic fibers, polyethylene fibers, polypropylene fibers, etc. can be used as other materials.
Regarding water repellency, the contact angle of water is about 45 to 90 degrees, and moisture such as rain water is repelled to the surface of the first layer 2 to some extent. Therefore, there is moisture that passes through the first layer 2 and reaches the introduced seed 7.
The basis weight is preferably 60 to 90 g / m ² , but may be 45 to 150 g / m ² . That is, when the basis weight is less than 45 g / ^{m 2} can not inhibit rooting roots 11 of flying seeds 10 for a possible water passage forming the first layer 2 below, whereas if it exceeds 150 g / ^{m 2} is The bud 8 of the introduced seed 7 cannot penetrate the first layer 2.

Next, the second layer 3 is composed of a long-fiber nonwoven fabric having a certain range of tensile strength, water permeability and water retention, and examples thereof include polyester, polyethylene, and nylon.
Moreover, about tensile strength, if it is 50-500 N / 5cm, the growth of the buried seed 12 will be suppressed and the growth of the introduction seed 7 will not be inhibited. That is, as shown in FIG. 3, when it is less than 50 N / 5 cm, the bud 13 of the buried seed 12 can penetrate, whereas when it exceeds 500 N / 5 cm, the root 9 of the introduced seed 7 penetrates the second layer 3. Can not do it.
Moreover, about water permeability, if it is 10 ^<-3 > -10 < ^-1 > cm / sec, rapid water permeation will be aimed at with respect to both the water from the ground and the water which permeate | transmits the 1st layer, and 10 ^{Since it is −1} cm / sec or less, water is prevented from excessively penetrating into the gaps between the fibers. For reference, the hydraulic conductivity of true sand is 10 ⁻³ cm / sec.
And about water retention, it measured by the below-mentioned method. A value measured by this method of 60 minutes or more is ideal because of good water retention. In addition, what is considered that water retention is bad will dry in about 10 minutes.

  Subsequently, the introduced seed layer 4 is a mixture of the introduced seed 7, a fertilizer and a water retention material. Conditions are arranged so that the introduced seed 7 can start rooting and germination by surrounding the introduced seed 7 with a fertilizer and a water retaining material. Moreover, these mixing ratios can be appropriately changed depending on the type of the seed 7 introduced, the state of the ground surface, and the like.

  Further, the reinforcing net 5 is installed in close contact with the upper layer of the first layer 2 to prevent the first layer from being unexpectedly damaged or peeled off from the second layer. This reinforcing net 5 is not an essential component but can be omitted in consideration of the inclination of the ground surface, etc., but it is better to install it in order to protect the first layer 2 for a long period of time.

Next, the water-holding nonwoven fabric 6 is closely attached to the lower layer of the second layer 3. The tensile strength of the water-holding nonwoven fabric 6 does not inhibit root penetration of the introduced seed 7 but retains moisture in the ground and provides it to the root 9 of the introduced seed 7. Therefore, more water is retained in the lower layer of the second layer 3 without lowering the root penetration to the introduced seed 7 of the second layer 3, and only the water supply to the root 9 of the introduced seed 7 is increased.
The water-retaining nonwoven fabric 6 is not an essential component as with the reinforcing net 5, and can be omitted in consideration of the type of the introduced seed 7 and the moisture on the ground surface, but in order to ensure the water supply to the introduced seed 7 Should be installed. In particular, when the second layer 3 of a kind whose water retention is not so good is used, the water retention nonwoven fabric 6 is preferably installed.

Further, the integration of four layers or three layers excluding the five layers, or the reinforcing net 5 or the water retaining nonwoven fabric 6 is performed by performing a needle punching process. The punch holes penetrate through the five layers without fail, so that they are firmly fixed to each other. Specifically, the density of punch holes is about 0.5 punch / cm ² and the diameter is about 1 mm.

From the above, the herbicidal planting sheet 1 according to the present invention has the following advantageous effects.
Since many types of water-repellent short fibers constituting the first layer 2 can be used, it is easy to procure materials at the time of manufacture, and the range of selection of materials is wide considering the effects and costs.
Further, since the surface of the first layer 2 has water repellency, moisture easily moves, and the remaining moisture is blown away by wind, the inclination of the sheet, and the surface can be quickly dried. Therefore, flying seeds cannot be rooted and die, so that the herbicidal effect can be exhibited.
However, some of the moisture that has poured onto the surface of the first layer 2 passes through the first layer 2 to some extent and reaches the introduced seed 7. As a result, the introduced seed 7 can absorb not only the water that has permeated through the second layer 3 but also the water through the above-mentioned route. This is because when the moisture permeated through the second layer 3 decreases, for example, even when the ground surface is locally convex and the sheet is slightly lifted from the ground surface, the moisture from above is introduced seed 7 And the growth of seeds in that portion does not decrease. More specifically, since the first layer 2 has water repellency and water permeability, the flying seed 10 is killed and the growth of the introduced seed 7 is supported. It leads to an effect.
Next, the basis weight of the first layer 2 is appropriate to be 45 to 150 g / m ² , and as long as it is within this range, the elongation of the root 11 of the flying seed 10 can be inhibited, and the bud 8 of the introduced seed 7 is the first. Layer 2 can be penetrated. Therefore, the thickness of the first layer 2 can be expected to have a herbicidal and greening effect in a relatively wide range, and the decrease in the effect depending on the types of weeds and introduced seeds 7 is not significant.

Subsequently, for the second layer 3, many types can be used for the long fibers configured in the same manner as the first layer 2.
An appropriate tensile strength is 50 to 500 N / 5 cm. In this range, the bud 13 of the buried seed 12 cannot penetrate, but the root 9 of the introduced seed 7 can penetrate the second layer 3. That is, a herbicidal and greening effect can be exhibited.
In addition to this, it is necessary that water permeability and water retention are appropriate, but the long-fiber nonwoven fabric of the second layer 3 has the same degree of water permeability as that of true sand. Therefore, when it is laid on the ground surface, only the sheet portion has excess moisture, and it is difficult to become familiar with the ground surface. Inconveniences such as spills are unlikely to occur.
Moreover, since it also has water retention, sufficient water supply to the root 9 of the introduced seed 7 is possible, and the risk of seed death may be reduced.

  Next, in the introduced seed layer 4, the mixing ratio of the introduced seed 7, the fertilizer and the water retention material can be changed as appropriate, so that it can grow according to the seed and salt environment of the plant originally in the area. By freely selecting the seeds of halophytes, it is possible to clean up the shores that have been eroded by sweeping out alien plants and waves.

  Furthermore, when the reinforcing net 5 is installed, damage to the first layer 2 and peeling from the second layer 3 can be prevented, so that the introduction seed 7 is prevented from flowing away at the beginning of laying and the growth rate is improved. be able to. Further, even over a long period of time, the herbicidal effect can be maintained, and the second layer 3 is also indirectly protected. Meanwhile, the growth of the introduced seed 7 can proceed smoothly, so that the greening effect can be improved by installing the reinforcing net 5.

And the water retention nonwoven fabric 6 can promote only the growth of the root 9 of the introduced seed 7 by the installation, and can improve the greening effect. This is because, by using a fiber having a low tensile strength, only the water supply to the root 9 can be increased because the elongation of the root 9 is not inhibited even if the fiber is thickened to some extent. At this time, the thickness can be easily increased or decreased, which is convenient.
In particular, when the second layer 3 of a kind that does not have a very good water retention is used, the water retention nonwoven fabric 6 can supplement the water retention function and improve the water retention, which is effective for the growth of the root 9 of the introduced seed 7. is there.
Moreover, it is also possible to improve the adhesiveness to a ground surface by considering the softness | flexibility of the water retention nonwoven fabric 6. FIG.

Subsequently, for the integration of the five layers described above, the needle punching process is performed so that the five layers are firmly fixed to each other and do not deviate from each other at the time of laying. Absent. Furthermore, since the complete laying state continues for a long time, the herbicidal, greening and prevention effects continue to be exhibited during that time.
Here, there is a possibility that penetrating all the layers may adversely affect the introduced seed 7, but this influence can be minimized by considering the density and size of the punch holes. Furthermore, the buds 8 and the roots 9 of the introduced seed 7 can easily penetrate the first layer 2 and the second layer 3 through this hole. As a result, it can be said that the advantageous effect is much larger than the adverse effect by performing the needle punching process.

Finally, the combination of the first layer 2 and the second layer 3 will be described. It is important that the first layer 2 is a fiber having moderate water repellency and water permeability, and an appropriate basis weight is selected. is there. At the same time, it is important that the second layer 3 is a fiber having water permeability and water retention, and an appropriate tensile strength is selected. Two advantageous effects of greening can be realized simultaneously.
The first layer 2, the second layer 3, the reinforcing net 5, and the water retaining nonwoven fabric 6 constituting the herbicidal greening sheet 1 are not limited to being non-degradable, but are long even if they are non-degradable. There is no particular problem with the construction of the period.

Next, configurations of specific examples and comparative examples will be described. Of course, the present invention is not limited by this illustration.
Each characteristic value in each example and comparative example was measured by the following method.

(1) Tensile strength (N / 5cm)
It measured based on JIS L 1096 (5 cm).
(2) Water permeability (cm / sec)
It measured based on JIS A1218.
(3) Water retention (min)
A sample piece of 10 cm in length and 10 cm in width is prepared from the sample in the standard state, and after water is saturated until saturated, water is drained. Dry in an oven at 35 ° C and measure how many minutes it dries. This value was defined as water retention.
(4) Weight per unit area (g / m ² )
10 points each of 10 cm long × 10 cm wide sample pieces are prepared from the standard state sample, the mass (g) of each sample piece is weighed, and the average value of the obtained values is converted per unit area to the basis weight ( g / m ² ).
(5) Plant seed germination situation One month after laying the herbicidal greening sheet, the germination state was observed and judged according to the following criteria.
A: More than 70% of the whole germinate and grow well.
○: More than 30% of the whole germinate and grow well.
Δ: Less than 30% of the whole germinate and grow well.
X: Germination is not seen at all.
(6) Herbicidal effect One month after laying the grass-proofing sheet, the herbicidal state was observed and judged according to the following criteria.
A: Weeds are not growing at all.
○: Weeds are slightly seen, but the weed control effect is sufficient.
(Triangle | delta): The weed growth is seen so that weeding work is required, and the herbicidal effect is low.
X: No herbicidal effect is observed.

A polyester short fiber having an average fineness of 5 dtex was used as the water-repellent short fiber. A fiber web sheet (weight per unit area: 45 g / m ² ) was manufactured by a thermal bonding method to obtain a water-repellent fiber nonwoven fabric as a first layer. A long fiber nonwoven fabric having a tensile strength of 50 N / 5 cm was used as the second layer to obtain a herbicidal greening sheet.
This sheet was laid on the slope of the field, and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

A fiber web sheet (weight per unit area: 45 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a non-woven fabric having a tensile strength of 150 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

In the same production method as in Example 1, a fiber web sheet (weight per unit area: 45 g / m ² ) was produced as the first layer, a long fiber nonwoven fabric having a tensile strength of 500 N / 5 cm was used as the second layer, and the others Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

A fiber web sheet (weight per unit area: 90 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a long fiber nonwoven fabric having a tensile strength of 50 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

A fiber web sheet (weight per unit area: 90 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a long fiber nonwoven fabric having a tensile strength of 150 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

A fiber web sheet (weight per unit area: 90 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a non-woven fabric with a tensile strength of 500 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

A fiber web sheet (weight per unit area: 150 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a long fiber nonwoven fabric having a tensile strength of 50 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

In the same production method as in Example 1, a fiber web sheet (weight per unit area: 150 g / m ² ) was produced as the first layer, a long fiber nonwoven fabric having a tensile strength of 150 N / 5 cm was used as the second layer, and the others Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

A fiber web sheet (weight per unit area: 150 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a non-woven fabric with a tensile strength of 500 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 1)
In the same production method as in Example 1, a fiber web sheet (weight per unit area: 30 g / m ² ) was produced as the first layer, and a long fiber nonwoven fabric having a tensile strength of 50 N / 5 cm was used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 2)
A fiber web sheet (weight per unit area: 30 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a non-woven fabric having a tensile strength of 150 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 3)
A fiber web sheet (weight per unit area: 30 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a non-woven fabric with a tensile strength of 500 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 4)
In the same production method as in Example 1, a fiber web sheet (weight per unit area: 45 g / m ² ) was produced as the first layer, a long fiber nonwoven fabric having a tensile strength of 30 N / 5 cm was used as the second layer, and the others Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 5)
A fiber web sheet (weight per unit area: 45 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a non-woven fabric with a tensile strength of 750 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 6)
In the same production method as in Example 1, a fiber web sheet (weight per unit area: 90 g / m ² ) was produced as the first layer, a long fiber nonwoven fabric having a tensile strength of 30 N / 5 cm was used as the second layer, and the others Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 7)
A fiber web sheet (weight per unit area: 90 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a non-woven fabric with a tensile strength of 750 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 8)
In the same production method as in Example 1, a fiber web sheet (weight per unit area: 150 g / m ² ) was produced as the first layer, a long fiber nonwoven fabric having a tensile strength of 30 N / 5 cm was used as the second layer, and the others Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 9)
A fiber web sheet (weight per unit area: 150 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a long fiber nonwoven fabric having a tensile strength of 750 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 10)
In the same production method as in Example 1, a fiber web sheet (weight per unit area: 200 g / m ² ) was produced as the first layer, a long fiber nonwoven fabric having a tensile strength of 50 N / 5 cm was used as the second layer, and the others Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 11)
A fiber web sheet (weight per unit area: 200 g / m ² ) is manufactured as the first layer by the same manufacturing method as in Example 1, and a long fiber nonwoven fabric having a tensile strength of 150 N / 5 cm is used as the second layer. Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3.

(Comparative Example 12)
In the same production method as in Example 1, a fiber web sheet (weight per unit area: 200 g / m ² ) was produced as the first layer, a long fiber nonwoven fabric having a tensile strength of 750 N / 5 cm was used as the second layer, and the others Obtained a herbicidal greening sheet in the same manner as in Example 1.
Similarly, this sheet was laid on the slope of a field and the seed germination situation and the herbicidal effect were tested. The results are shown in Tables 1-3. Table 1 shows the germination status of the introduced seed, Table 2 shows the herbicidal status of the buried seed, and Table 3 shows the herbicidal status of the flying seed.

  Since the invention described in claims 1 to 6 has a greening effect as well as a herbicidal effect, it can be applied to the conservation of slopes and bare land caused by road construction and residential land development. Moreover, since it also has the effect of preventing the erosion of the ground surface, it can be applied to the protection of disaster sites. In addition, since the introduced seeds can be freely selected according to the purpose, it can be sufficiently utilized for extermination of exotic plants.

  DESCRIPTION OF SYMBOLS 1 ... Herbicidal greening sheet 2 ... 1st layer 3 ... 2nd layer 4 ... Introduction seed layer 5 ... Reinforcement net 6 ... Water retention nonwoven fabric 7 ... Introduction seed 8 ... Bud 9 ... Root 10 ... Flying seed 11 ... Root 12 ... Buried Soil seed 13 ... Bud

Claims (6)

A first layer made of a short-fiber nonwoven fabric having water repellency having a basis weight of 45 to 150 g / m ² ;
A second layer made of a non-woven fabric having a water permeability and a water retention property having a tensile strength of 50 to 500 N / 5 cm and a water permeability coefficient of 10 ⁻³ to 10 ⁻¹ cm / sec ;
The herbicidal planting sheet characterized in that the introduced seed held between the first layer and the second layer is integrated. 2. The first layer according to claim 1, wherein the first layer has a basis weight of 45 to 150 g / m ² and is configured to inhibit root penetration of flying seeds and to allow germination penetration of the introduced seeds. Grass prevention greening sheet.   2. The second layer according to claim 1, wherein the second layer has a tensile strength of 50 to 500 N / 5 cm, is configured to inhibit germination penetration of buried seeds and to allow root penetration of the introduced seeds. The herbicidal greening sheet according to 2. The second layer has a water permeability of 10 ⁻³ to 10 ⁻¹ cm / sec and is configured to be able to supply water to the root of the introduced seed. The grass prevention greening sheet | seat of description.   The grassproof greening sheet according to any one of claims 1 to 4, which has a structure in which a reinforcing net is further overlapped on an upper layer of the first layer. Anti grass greening sheet according to any one of claims 1 to 5, characterized in that the lower layer of the second layer is a structure of repeated water retention nonwoven fabric.