JP5451919B1 - Block mat - Google Patents

Abstract

It is an object of the present invention to provide a block mat that can suppress water permeation and is easy to construct.
A block mat 10 in which a plurality of concrete blocks 20 are fixed to a base material sheet 11 having flexibility, the base material sheet laying a first layer 12 in contact with the concrete block, and the block mat. A second layer 14 that is in contact with the ground, and a water barrier layer 13 having a water barrier provided between the first layer and the second layer, and the second layer is made of nonwoven fabric. It becomes a block mat.
[Selection] Figure 2

Description

  The present invention relates to a block mat.

Conventionally, an anti-erosion material called a block mat has been used for the purpose of protecting slopes such as rivers, dams, and reservoirs. The block mat is obtained by integrating a large number of concrete blocks with a base material sheet made of synthetic fiber nonwoven fabric or the like. The block mat is easy to install and has the advantage of excellent durability.
The prior art regarding such a block mat is disclosed in Patent Document 1 below.

  The dike that constitutes a slope such as a river should be made of soil (such as clay) that is difficult to permeate water. Therefore, many of the conventional block mats disclosed in Patent Document 1 are not provided with water shielding. However, the slopes of rivers and the like are not necessarily composed of soil that is difficult to permeate water, and sometimes are composed of sand or the like that may allow water to pass through. If the dike is made of sand, etc., there is a risk that the dike will break in the worst case at the time of flooding. However, it is difficult to replace the sand that constitutes the dike with soil that is difficult to permeate water.

  Therefore, conventionally, for the purpose of preventing water from entering a slope such as a river, the slope is covered with a sheet having a water shielding property (water shielding sheet). In addition, since simply laying a water-impervious sheet has a problem in durability, a block is also installed on the water-impervious sheet. Patent Document 2 describes a technique in which a water-impermeable sheet (water-impervious sheet) and a block mat sheet material (base sheet) are combined. It is considered possible.

JP 2007-204918 A JP 56-89611 A

If the slope such as a river is covered with a water-impervious sheet as described above, it is considered that flooding on the slope can be suppressed. However, as described above, simply laying the water shielding sheet on the slope causes a problem in durability, and therefore, a block is also installed on the water shielding sheet. In this case, the number of steps required for the construction increases and the construction cost increases.
Further, when the above-described block mat is installed on the water-impervious sheet as in the technique disclosed in Patent Document 2, it is easy to slip between the water-impervious sheet and the base sheet of the block mat, and the inclination is steep. However, there was a problem that it was difficult to construct on the slope. Patent Document 2 also discloses a technique in which the base sheet and the water shielding sheet of the block mat are integrated in advance, but in this case, it is easy to slip between the water shielding sheet and the slope, and the slope is inclined. There was a problem that construction was difficult on steep slopes.

  Then, let it be a subject to provide the block mat which can suppress permeation | transmission of water and is easy to construct.

  The present invention will be described below.

  The present invention relates to a block mat in which a plurality of concrete blocks are fixed to a flexible base sheet, and the base sheet has a first layer in contact with the concrete block and a ground surface when the block mat is laid. A block mat having a second layer in contact with the water and a water-impervious layer provided between the first layer and the second layer and having a water-impervious property, wherein the second layer is made of a nonwoven fabric. .

  In the block mat of the present invention, the first layer preferably contains polypropylene. By including a polypropylene in the first layer, it is possible to suppress the first layer from being deteriorated by an alkali component of the concrete block.

  In the block mat of the present invention, the water shielding layer preferably contains an ethylene-vinyl acetate copolymer resin. By including the ethylene-vinyl acetate copolymer resin in the water shielding layer, it becomes easy to improve the adhesion between the water shielding layer and the first layer containing polypropylene.

  ADVANTAGE OF THE INVENTION According to this invention, the block mat which can suppress permeation | transmission of water and can be easily constructed can be provided.

1 is a plan view schematically showing a block mat 10. FIG. 1 is a cross-sectional view schematically showing a block mat 10. FIG. It is a figure explaining the manufacturing method of the base material sheet.

  The above-mentioned operation and gain of the present invention will be clarified from embodiments for carrying out the invention described below. Hereinafter, the present invention will be described based on embodiments shown in the drawings. However, the present invention is not limited to the embodiment. In addition, the figure shown below shows the structure schematically and does not show the magnitude | size and shape of each component accurately.

  FIG. 1 is a plan view schematically showing the block mat 10. FIG. 2 is a diagram schematically showing a cross section of the block mat 10 taken along the line II-II shown in FIG.

  As shown in FIGS. 1 and 2, the block mat 10 includes a base sheet 11 and a plurality of concrete blocks 20, 20,... Fixed to the base sheet 11.

  The base sheet 11 is a laminated sheet having flexibility, and includes a first layer 12, a water shielding layer 13, and a second layer 14 described later.

Although the magnitude | size of the base material sheet 11 is not specifically limited, Usually, width (length of the left-right direction of FIG. 1) is about 40 cm or more and 2 m or less, and length (length of the up-down direction of FIG. 1) is 1 m or more. It is about 10 m or less.
When laying the block mat 10 as will be described later, concrete blocks 20, 20,... Are provided at both longitudinal ends of the base sheet 11 in order to attach (pinch) a device for lifting the block mat 10. It is preferable that there are no portions (pinching margins) 11a and 11b. The widths w1 and w2 of the pinching allowances 11a and 11b are not particularly limited as long as they are large enough to attach the instrument, but can be set to, for example, about 400 mm to 600 mm.
Further, when a plurality of block mats 10 are laid side by side in the width direction (left-right direction in FIG. 1) as will be described later, it is preferable that a part of the base sheet 11 is laid. Therefore, it is preferable that a portion (stacking allowance) 11c not provided with the concrete blocks 20, 20,. The width w3 of the overlap allowance 11c is not particularly limited, but can be, for example, 200 mm or more and 400 mm or less.

  The first layer 12 is provided on the base sheet 11 on the side in contact with the concrete blocks 20, 20,. As the 1st layer 12, the nonwoven fabric used as the base material sheet of the conventional block mat can be used.

  For the first layer 12, for example, a nonwoven fabric including short fibers made of synthetic fibers such as polypropylene, polyester, nylon, vinylon, acrylic, and polyurethane can be used. However, as for the 1st layer 12, it is preferable that the side which contacts the concrete blocks 20, 20, ... at least contains a polypropylene, and it is more preferable that it is comprised with the nonwoven fabric which consists of a polypropylene. When the 1st layer 12 contains polypropylene, it can control that the 1st layer 12 deteriorates by the alkaline component of concrete blocks 20, 20, ....

  The first layer 12 has an appropriate tensile strength so that the base sheet 11 and the concrete blocks 20, 20,... Can be lifted and handled in an integrated state. Is preferred. From this point of view, the first layer 12 is preferably configured by inserting a woven fabric serving as a reinforcing core material into the nonwoven fabric. The first layer 12 having such a structure is formed by, for example, wrapping a woven fabric or a long fiber when making the nonwoven fabric with a paper machine to integrate the nonwoven fabric and the woven fabric or the long fiber, and performing needle punching. Can be manufactured by reinforcing.

  Although the thickness of the 1st layer 12 is not specifically limited, For example, it is 2 mm or more and about 5 mm or less. By setting the thickness of the first layer 12 to 2 mm or more, it becomes easy to ensure the tensile strength. On the other hand, by setting the thickness of the first layer 12 to 5 mm or less, it is easy to drive staples when fixing the concrete blocks 20, 20,.

  The water shielding layer 13 is a layer having a water shielding property provided between the first layer 12 and the second layer 14. Since the base sheet 11 includes the water shielding layer 13, when the block mat 10 is laid on a slope or the like, it is possible to prevent water from entering the slope or the like.

  The material constituting the water shielding layer 13 is not particularly limited as long as it has water shielding properties. Specific examples of the material constituting the water shielding layer 13 include ethylene-vinyl acetate copolymer resin, rubber, vinyl chloride resin, polyolefin resin, and the like. When polypropylene is included in the portion of the first layer 12 that is in contact with the water shielding layer 13, the water shielding layer 13 includes an ethylene-vinyl acetate copolymer resin, so that the water shielding layer 13 and the first layer 12 are bonded. It becomes easy to improve the property.

The basis weight of the water shielding layer 13 is not particularly limited, but is preferably made of a resin so that the basis weight is, for example, 200 g / m ² or more and 500 g / m ² or less. By setting the basis weight of the resin constituting the water shielding layer 13 to 200 g / m ² or more, it becomes easy to prevent the water shielding layer 13 from being opened by pebbles or the like when the block mat 10 is laid. On the other hand, by setting the basis weight of the resin constituting the water shielding layer 13 to 500 g / m ² or less, staples are driven when fixing the concrete blocks 20, 20,. It becomes easy.
Although the thickness of the water-impervious layer 13 is not particularly limited, for example, the thickness is preferably 0.15 mm or more and 0.65 mm or less.

  The second layer 14 is a layer in contact with the ground (slope) when the block mat 10 is laid. That is, the second layer is a layer provided on the outermost surface of the base sheet 11 opposite to the side provided with the concrete blocks 20, 20,. The second layer 14 is made of a non-woven fabric, and the static friction coefficient is increased. Therefore, the block mat 10 can be prevented from slipping down when the block mat 10 is laid on the slope, so that the construction of the block mat 10 is facilitated.

  Although the material which comprises the 2nd layer 14 is not specifically limited, For example, nonwoven fabrics, such as a short fiber by synthetic fibers, such as a polypropylene, polyethylene, nylon, vinylon, an acryl, a polyurethane, can be used. Polypropylene or polyethylene is preferred because of its excellent chemical resistance. This is because the ground improvement material or the like may contain an alkaline substance.

The fineness of the nonwoven fabric of the second layer 14 is preferably 3.3 dtex or more and 20.0 dtex or less, and short fibers having different finenesses can be mixed and used.
By using fine fibers having a fineness of 3.3 dtex or more and less than 6.0 dtex, the fibers can be easily entangled with each other even when the weight per unit area is low, thereby preventing the nonwoven fabric from being seen through, thereby reducing the cost. Further, since the fibers are intertwined closely, it is easy to capture fine soil particles, so that it is easy to adapt to the slope.
By using thick fibers having a fineness of 6.0 dtex or more, preferably 10.0 dtex or more, the fibers can stand up easily and the coefficient of friction can be increased, and the slope of the slope on which the block mat 10 is laid is steep. It is easy to prevent the block mat 10 from sliding down.
The mixing ratio of thick fibers having a fineness of 6.0 dtex or more with respect to the second layer 14 is preferably 15% by weight or more, and more preferably 30% by weight or more.

  From the viewpoint of easily increasing the coefficient of static friction, the surface of the second layer 14 (the outermost surface of the base sheet 11 opposite to the side on which the concrete blocks 20, 20,. It is preferable to roughen the surface by applying or rubbing.

As the concrete blocks 20, 20,..., Those used in conventional block mats can be used without any particular limitation. The magnitude | size of the concrete block 20 is not specifically limited, Usually, the one side in planar view (surface which appears in FIG. 1) is about 15 cm or more and 50 cm or less, and height is about 4 cm or more and 30 cm or less.
Moreover, the arrangement pattern of the concrete blocks 20, 20,... Is not particularly limited. However, in order to provide the block mat 10 with flexibility, it is preferable to provide a gap of 5 mm or more between the adjacent concrete blocks 20.

  According to the block mat 10 described so far, since the base sheet 11 includes the water shielding layer 13, there is no need to separately lay a sheet having water shielding properties like a conventional block mat. Can be simplified. Moreover, according to the block mat 10, since the water-impervious layer 13 is a part of the base material sheet 11, the water-impervious property as in the conventional method in which the block mat is laid on the sheet having the water-impervious property. Therefore, it is easier to lay on a slope than a conventional block mat. Furthermore, according to the block mat 10, since the second layer in contact with the ground (slope) of the base sheet 11 is made of nonwoven fabric, the coefficient of static friction is high, which is higher than that of the conventional block mat. Laying on the slope is easy.

  The block mat 10 is not intended for complete waterproofing. Staples are used to integrate the overlapped portions when a plurality of block mats 10 are stacked as described below, and the base sheet 11 and the concrete blocks 20, 20,. It is considered that some water leaks from a portion where the anchor pin is driven or a portion where an anchor pin is driven to fix the block mat 10 as described later. As described above, the water leaks to some extent, so that the water once immersed in the dike covered with the block mat 10 can be discharged.

  Next, a method for manufacturing the block mat 10 will be described. The block mat 10 can be manufactured by, for example, integrating the base sheet 11 and the concrete blocks 20, 20,. The base material sheet 11 can be produced as follows, for example. FIG. 3 is a diagram illustrating a method for manufacturing the base sheet 11.

  In the example shown in FIG. 3, first, the nonwoven fabric constituting the second layer 14 is conveyed in the direction of the arrow by the conveying rolls 30, 30,..., And the molten resin 31 in which the resin constituting the water shielding layer 13 is dissolved. It is supplied onto the second layer 14 by a supply device 32. Then, the nonwoven fabric which comprises the 1st layer 12 is covered on this molten resin 31, and it pressure-bonds with the roller 33. FIG. As a result, a part of the molten resin 31 penetrates and hardens the first layer 12 and the second layer 14, and the first layer 12, the water shielding layer 13, and the second layer 14 are integrated. Can do.

  The method for integrating the base sheet 11 and the concrete blocks 20, 20,... Is not particularly limited. For example, the base material sheet 11 and the concrete blocks 20, 20,... Can be integrated as follows. First, the concrete is poured into a mold for molding the concrete blocks 20, 20,..., And the base sheet 11 is placed on the mold so that the first layer 12 and the concrete are in contact before the concrete is solidified. Cover (open side). At this time, since a part of the concrete impregnates the first layer 12, the concrete blocks 20, 20,... And the first layer 12 can be integrated by curing (curing) the concrete as it is. . In addition, in order to fix concrete block 20, 20, ... and the base material sheet 11 more firmly, after covering the base material sheet 11 on a formwork (opening side) as mentioned above, it is a base material. It is preferable that staples are driven from the second layer 14 side of the sheet 11 into a portion where the concrete blocks 20, 20,.

  In order to lay the block mat 10, for example, the clamping margins 11 a and 11 b provided at both end portions in the length direction of the base sheet 11 should be clamped by a clamping device attached to a heavy machine, and the block mat 10 should be lifted and installed. Suspend and move to a specified location. As the above-described clamping device, for example, a base member made of a steel frame about the length of the base sheet 11 and horizontally suspended by a crane, and a base sheet attached to both ends of the scissor member by a jack mechanism The apparatus comprised from the pressurizing plate which hold | grips 11 is used.

  The block mat 10 is laid along the slope line in the length direction (vertical direction in FIG. 1) of the block mat 10 with respect to the slope. Then, by overlapping the overlap margin 11c of the base sheet 11 with the overlap allowance of another adjacent block mat 10, a plurality of block mats 10 can be laid side by side according to the width of the slope. Each block mat 10 is less likely to slip off due to the frictional resistance of the second layer of the base material sheet 11, so that it is easy to lay on the slope. Further, in order to more securely fix the block mat 10 to the slope, it is preferable to drive a known anchor pin into the gap between the concrete blocks 20, 20,.

  Such a block mat 10 has a slope or bottom of a place where water flows or stays, such as a river, a drainage channel, a dam, a regulating pond, or a pond, or a slope of a road or a railroad built on embankment. Can be laid to protect.

  A base sheet was prepared as described below, and the static friction coefficient was evaluated.

Example 1
On one side of a non-woven fabric (first layer) made of polypropylene with polyester as a reinforcing thread and having a thickness of 3 mm and a basis weight of 355 g / m ² (a filter sheet used for a gobi mat manufactured by Mitsubishi Plastics, Inc.) A water shielding layer made of an ethylene-vinyl acetate copolymer resin (EVA) having a basis weight of 300 g / m ² and a thickness of 0.4 mm is formed, and a polyester 80 wt% having a basis weight of 125 g / m ² is low. Non-woven fabric obtained by a needle punch manufacturing method consisting of 20 wt% density polyester (mixed fiber consisting of 70 wt% fiber with a fineness of 3.3-4.4 dtex and 30 wt% fiber with a fineness of 6.6 dtex) (second layer) A base sheet was prepared by stacking.
Next, Toyoura standard sand (water content: 0.5%) was prepared and tamped with a weight of 32 N / 70 cm ² to level the surface smoothly.
On the soil leveled as described above, the base sheet is placed so that the second layer is in contact with the soil, and the plate and the concrete block placed on the plate (the total weight of the plate and the concrete block) 6 kg) was further placed on the base sheet, and the base sheet was pulled in the horizontal direction to evaluate the static friction coefficient. The evaluation results are shown in Table 1.

(Example 2)
Nonwoven fabric (second layer) obtained by a needle punch manufacturing method comprising 80 wt% polyester with a basis weight of 150 g / m ² and 20 wt% low density polyester (50 wt% fiber with a fineness of 3.3 to 4.4 dtex and fineness) Is a mixed fiber consisting of 50% by weight of 6.6 dtex fiber), and static friction is applied in the same manner as in Example 1 except that the surface of the second layer in contact with the soil is roughened by applying hot air to the surface before placing on the soil. The coefficient was evaluated. The evaluation results are shown in Table 1.

(Example 3)
Nonwoven (fineness of the fiber 50 wt% of 3.3~4.4dtex obtained by needle punching production method comprising a nonwoven fabric (second layer) Polyester 80 wt% of the basis weight 150 g / ^{m 2} and a low density polyester 20 wt%, Except that the surface of the second layer in contact with the soil is roughened before being placed on the soil, and a mixed fiber comprising 30 wt% of the fiber having a fineness of 6.6 dtex and 20 wt% of the fiber having a fineness of 17.0 dtex) The static friction coefficient was evaluated in the same manner as in Example 1. The evaluation results are shown in Table 1.

Example 4
Nonwoven (second layer) of basis weight 250 g / ^{m 2} of polyester 80 wt% and the fiber 30 wt% and fineness of the obtained nonwoven fabric (fineness 4.4~7.8dtex by needle punching method of a low-melting polyester 20 wt% The coefficient of static friction was evaluated in the same manner as in Example 1 except that the mixed fiber was 70 wt% of 17 dtex fiber). The evaluation results are shown in Table 1.

(Comparative Example 1)
The static friction coefficient was evaluated in the same manner as in Example 1 except that the second layer was not provided. That is, in Comparative Example 1, the water shielding layer was in contact with the soil. The evaluation results are shown in Table 1.

  As shown in Table 1, the base sheet according to Examples 1 to 4 had a higher coefficient of static friction than Comparative Example 1. Therefore, according to the block mat of the present invention, it is difficult to slip off the slope when laying, and construction is easy.

DESCRIPTION OF SYMBOLS 10 Block mat 11 Base material sheet 12 1st layer 13 Water shielding layer 14 2nd layer 20 Concrete block

Claims (3)

A block mat in which a plurality of concrete blocks are fixed to a base material sheet having flexibility,
The base sheet is
A first layer in contact with the concrete block, a second layer in contact with the ground when the block mat is laid, and a water barrier provided between the first layer and the second layer. A water shielding layer,
The second layer is made of a nonwoven fabric obtained by mixing fibers having a fineness of 3.3 dtex or more and less than 6.0 dtex and fibers having a fineness of 6.0 dtex or more and 20.0 dtex or less .
Block mat.   The block mat of claim 1, wherein the first layer comprises polypropylene.   The block mat according to claim 2, wherein the water shielding layer includes an ethylene-vinyl acetate copolymer resin.

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