JP3154462U - Civil engineering sandbags - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sandbag for civil engineering having a strength that maintains a design strength even when left for a long time after laying and does not break due to ultraviolet deterioration. SOLUTION: A cylindrical base cloth bag body 1 into which a filling material is inserted and an endless belt, and is attached to the base cloth bag body 1 so as to be orthogonal to the bottom surface of the base cloth bag body 1. A civil engineering sandbag having a lifting belt 2 having two hanging portions formed thereon, and providing an extra strength in advance corresponding to the strength deterioration due to ultraviolet rays after a lapse of at least one year. A civil engineering sandbag A. [Selection] Figure 1

Description

The present invention relates to a civil engineering sandbag used for civil engineering work on a coast, river, lake, pond, and the like.
More specifically, the present invention relates to a civil engineering sandbag that can maintain design strength even after being laid for a certain period of time.

Conventionally, civil engineering sandbags for erection of earthworks and sand filled in civil engineering works on coasts, rivers, lakes, ponds and the like have been used in various places.
Such a civil engineering sandbag is composed of, for example, a knitted fabric, a woven fabric, and a mesh fabric formed using fiber yarns, and generally has flexibility.
As a material for the sandbag for civil engineering, synthetic fibers resistant to moisture, for example, polyester, polypropylene, polyethylene, nylon, or polyvinyl chloride are mainly used (for example, see Patent Document 1).
In particular, among synthetic fibers, bags made by sewing a cloth in which a polypropylene fiber is roughly woven into a plain weave are widely used.

Japanese Utility Model Publication No. 6-34026

However, sandbags made of polypropylene, for example, are broken up within a year after being piled up at the construction site, and as a result, filling materials such as sand and stone packed in the bag are discharged to the outside. There was a problem that would have been.
This is because synthetic fibers such as polypropylene fiber, nylon fiber, and polyester fiber cause deterioration when exposed to ultraviolet rays.

By receiving ultraviolet rays or the like, the sandbag undergoes a change with time and deteriorates to a strength lower than the original design strength, and the original state cannot be maintained.
As a result, if internal / external pressure is applied to the sandbag after construction, damage or the like occurs.
Even if it is a sandbag such as a temporary structure, it is necessary to prevent such damage from occurring for about one year.
The present invention has been made based on such a background.
That is, an object of the present invention is to provide a civil engineering sandbag having a strength that maintains a design strength even when left for a long time after laying and does not break due to ultraviolet degradation.

  Thus, as a result of earnest research on the background of such problems, the present inventor has given the bag body extra strength in advance corresponding to the strength deterioration within a certain period of time. The present inventors have found that the problem can be solved, and have completed the present invention based on this knowledge.

  That is, the present invention provides (1) a cylindrical base cloth bag body into which filling material is inserted, a suspension belt formed in an endless shape and orthogonally attached to the bottom surface of the base cloth bag body, A squeezing belt attached at a certain distance below the mouth, and the base fabric bag body and the suspension belt are sewn with a sewing thread containing an ultraviolet shielding agent made of a reflective agent or an absorbent. The reflective agent is carbon black, iron oxide, chromium oxide, lead oxide, zinc oxide, magnesium oxide, titanium oxide, calcium carbonate or barium sulfate, and the absorber is phenyl salicylate, hydroxybenzophenone or benzo It exists in sandbags for civil engineering that is triazole.

  The present invention also includes (2) a cylindrical base cloth bag body into which the filling material is charged and an endless belt, and is attached to the base cloth bag body at a right angle on the bottom surface of the base cloth bag body. A lifting belt having two hanging parts formed on the upper part of the body, and a mouth-squeezing belt attached at a certain distance below the mouth of the base cloth bag body, The suspension belt is formed by weaving a polyester fiber thread containing an ultraviolet shielding agent, and the attachment of the base fabric bag body and the suspension belt is sewing with a sewing thread containing an ultraviolet shielding agent, and the ultraviolet shielding. A reflective agent or an absorbent is used as the agent, and the reflective agent is carbon black, iron oxide, chromium oxide, lead oxide, zinc oxide, magnesium oxide, titanium oxide, calcium carbonate or barium sulfate, and the absorbent is E alkenyl salicylate-based, consists in civil engineering for sandbags is a hydroxybenzophenone or benzotriazole.

  The present invention also includes (3) a cylindrical base cloth bag body into which a stuffing material is charged and an endless belt, and is attached to the base cloth bag body so as to be orthogonal to the bottom surface of the base cloth bag body. A lifting belt having two hanging portions formed on the upper portion thereof, and a mouth-squeezing belt attached at a certain distance below the mouth portion of the base fabric bag body, and the base fabric bag body and the suspension belt The belt is formed by weaving a polypropylene film yarn containing an ultraviolet shielding agent, and the attachment of the base fabric bag body and the suspension belt is sewing with a sewing thread containing the ultraviolet shielding agent, and the ultraviolet shielding agent As the reflective agent or absorber, carbon black, iron oxide, chromium oxide, lead oxide, zinc oxide, magnesium oxide, titanium oxide, calcium carbonate or barium sulfate is used as the reflective agent. Agent lies in civil engineering for sandbags phenyl salicylate-based, hydroxybenzophenone or benzotriazole.

  Moreover, this invention exists in the sandbag for civil engineering as described in any one of said (1)-(3) whose reflection agent is carbon black and an absorber is a phenyl salicylate type | system | group.

  In addition, the present invention provides (5) any of the above-mentioned (1) to (3) for provisional use, in which an extra strength corresponding to the strength deterioration due to ultraviolet rays after at least one year has elapsed. It exists in the sandbag for civil engineering as described in one.

The sandbag of the present invention has an extra strength in advance corresponding to the strength deterioration due to ultraviolet rays after lapse of time (for example, one year later). After one year), the strength is sufficient and damage due to deterioration with time is prevented.
In order to prevent this strength deterioration, if an ultraviolet shielding agent is contained and the strength corresponding to the strength deterioration is reduced as much as possible, the extra strength can be reduced in advance and saving can be achieved.

  In addition, if the ultraviolet shielding agent is contained in the fiber yarn, it can be produced simply by kneading into the resin at the time of producing the raw yarn, so that it does not take time to prevent deterioration.

FIG. 1 is an explanatory view showing an embodiment of a civil engineering sandbag of the present invention. FIG. 2 is an explanatory view showing a state in which the mouth portion of the base fabric bag body of FIG. 1 is squeezed with a mouth squeezing rope. 3A and 3B are explanatory views schematically showing the relationship between the strength of the conventional product and the product of the present invention. FIG. 3A is the strength of the product of the present invention when no ultraviolet shielding agent is used, and FIG. This shows the strength of the present invention product when the agent is used. FIG. 4 is an explanatory diagram schematically showing the relationship between the strength of the conventional product and the product of the present invention, and shows the difference in magnitude of deterioration strength from the conventional product one year later when an ultraviolet shielding material is used. FIG. FIG. 5 shows the relationship between the ultraviolet irradiation time and the tensile strength retention rate.

The best mode for carrying out the present invention will be described below with reference to the drawings.
FIG. 1 shows an embodiment of a civil engineering sandbag of the present invention.
The civil engineering sandbag A includes a cylindrical base cloth bag body 1 into which a filling material such as stone or earth and sand is put, and a suspension belt 2 formed in an endless shape and orthogonally attached to the bottom surface of the base cloth bag body 1. The mouthpiece rope 1 or the mouthpiece belt 3 is attached to the base fabric bag body 1 with a certain distance L from the mouth.
As shown in the figure, in order to make the base fabric bag body 1 cylindrical, for example, a circular cloth body forming the bottom surface and a rectangular cloth body forming the side surface are sewn together. Can do.

In the present embodiment, the suspension belt 2 is formed in an endless shape and is attached so as to be orthogonal to the bottom surface of the base fabric bag body 1 while the mouth portion of the base fabric bag body 1 is squeezed by the mouth throttle rope 3 (see FIG. 2). This is because when the base cloth bag body 1 in which the stuffing material is put is suspended, the base cloth bag body 1 is pressed by the suspension belt 2 from the periphery to the inside.
Therefore, the deformation of the base fabric bag body 1 into which the filling material is put can be suppressed, the stability at the time of suspension is increased, and safe and reliable conveyance can be performed.

The base fabric bag 1 and the suspension belt 2 are attached by sewing.
More specifically, the suspension belt 2 is not only sewn to the bottom surface of the base fabric bag body 1, but is also sewn to a part of the side surface of the base fabric bag body 1.
The sewing length is determined in consideration of the area of the mouth restrictor 1A of the civil engineering sandbag A (see FIG. 2).

In addition, when the suspension belt 2 and the base cloth bag body 1 are stitched together, the suspension belt 2 may be reinforced by sewing it onto a part of the side surface of the base cloth bag body 1 via an application cloth.
It is preferable to use a sewing thread containing an ultraviolet shielding agent as described later for a sewing thread (that is, a sewing thread) used for sewing.

  Synthetic fibers are used as the material for the base fabric bag body 1, the suspension belt 2, the squeezing rope or the squeezing belt 3, but it is more preferable to apply synthetic fibers containing an ultraviolet shielding agent for the reason described later.

As the synthetic fiber, for example, polyester, polypropylene, polyethylene, polyamide or the like is used.
These are used in the form of multifilaments, monofilaments, film yarns, etc., and bags are made by weaving or knitting.
Examples of the ultraviolet shielding agent contained in the civil engineering sandbag include a reflective agent and an absorbent. Examples of the reflective agent include carbon black, iron oxide, chromium oxide, lead oxide, zinc oxide, magnesium oxide, titanium oxide, calcium carbonate, and barium sulfate.
On the other hand, as the absorbent, there are phenyl salicylate-based, hydroxybenzophenone-based, and benzotriazole-based absorbents.

When the synthetic fiber contains an ultraviolet shielding agent, the ultraviolet absorption amount of the synthetic fiber itself is reduced, and the strength deterioration of the base fabric bag body 1 can be suppressed.
The synthetic fiber can be easily incorporated with an ultraviolet shielding agent by kneading the ultraviolet shielding agent at the time of spinning the raw yarn, but it is not necessarily at the time of spinning.
By the way, the present invention is characterized in that an extra strength corresponding to the strength deterioration due to ultraviolet rays after one year, for example, one year later, is given in advance.

This will be described with reference to FIG.
As shown in FIG. 3A, assuming that the initial strength of the conventional product is S0, when laid on the bank of a river for one year, the strength of the sandbag deteriorates by ΔS and becomes S1 due to ultraviolet rays or the like.
That is, S1 (strength after 1 year of conventional product) = S0 (initial strength of conventional product) −ΔS (deterioration strength)
In this case, the initial strength refers to the design strength of the sandbag.

In the present invention, the civil engineering sandbag A is reinforced in advance by this ΔS (deterioration strength), and after the elapse of time, for example, one year later, the strength comparable to the initial strength of the conventional product is exhibited.
Therefore, in the present invention, the initial strength S0 of the present invention is set as the initial strength S0 + deterioration strength ΔS of the conventional product.
That is, this deterioration strength ΔS corresponds to an extra strength in advance.
The process of adding the deterioration strength ΔS includes a method of increasing the strength by increasing the thickness of the synthetic yarn constituting the sandbag and increasing the yarn density, and the method is not limited.

Including the ultraviolet shielding agent in the sandbag reduces the strength deterioration with time, and therefore it is preferable to include the ultraviolet shielding agent in the sandbag in order to reduce the deterioration strength ΔS as much as possible.
When an ultraviolet shielding agent is contained in the sandbag, the ultraviolet ray is almost absorbed and the yarn material is less deteriorated by the ultraviolet ray.

As shown in FIG. 3 (B), this strength deterioration is excessive in advance because the deterioration strength ΔS ′ with the ultraviolet shielding agent is smaller than the degradation strength ΔS without the ultraviolet shielding agent (see FIG. 4). The strength to give to is also reduced.
For this reason, by including an ultraviolet shielding agent, it is possible to reduce the strength given in advance as much as possible, which is efficient.

There is an advantage that the amount of increasing the strength of the yarn itself is specifically reduced by the deterioration strength suppressing process using the ultraviolet shielding agent.
In this case, the magnitude of the deterioration strength ΔS ′ can be controlled by the content of an ultraviolet shielding agent such as carbon black.

[Strength degradation test]
Hereinafter, the strength deterioration test of the civil engineering sandbag of the present invention will be described.
Using black original fiber yarn (in the figure, “polyester (black)”), polyester fiber yarn (in the figure, “polyester (white)”), and polypropylene fiber yarn in which carbon black, a reflective agent, is kneaded with polyester resin The cloth material for plain sand (plain weave) was woven, and the strength was measured.
The thickness of the fiber yarn is 1670 dT (108f), and the cloth material is 295 g / m ² .
Then, according to JIS L 1096 “General Textile Testing Method”, 8.30 (weather resistance), accelerated exposure by ultraviolet irradiation was performed using a sunshine carbon arc lamp type weather resistance tester, and tensile strength (N / 3 cm width) was measured.
The result is shown in FIG.

FIG. 5 shows the relationship between the ultraviolet irradiation time and the tensile strength retention rate.
Here, the retention rate is the tensile strength before irradiation / tensile strength after irradiation expressed as a percentage.
In the case of polypropylene (generally widely used), it was found that the retention of tensile strength dropped to 15% when the irradiation time was 150 hours (corresponding to half a year of outdoor exposure).
In the case of polyester (white), it was found that when the irradiation time was 150 hours (corresponding to half a year of outdoor exposure), the tensile strength retention decreased to about 1/3 (34%). .

On the other hand, in the case of polyester (black), when the irradiation time is 150 hours (corresponding to half a year of outdoor exposure), the tensile strength retention rate is maintained about 2/3 or more (69%).
It was also found that more than half (52%) was maintained even when the irradiation time was 600 hours (corresponding to two years between outdoor exposures).
In the figure, ΔS ′ corresponds to the above-described deterioration intensity ΔS ′ in FIG.

From the above, when polyester (black) having a high retention rate is used, design strength, that is, initial strength can be saved as much as possible.
Weaving cloth material (plain weave) for sandbags using black original fiber yarn (in the figure, “polyester (black)”) made by kneading phenyl salicylate, an absorbent, into polyester resin, with similar strength Although the deterioration test is conducted, the same tendency is shown and the effectiveness is confirmed.

Although the present invention has been described above, the present invention is not limited to the above-described embodiments, and it goes without saying that various other modifications are possible without departing from the essence thereof.
For example, in the above-described embodiment, the example in which the base fabric bag body 1 has a cylindrical shape has been described, but a rectangular tube shape or other cylindrical shapes may be used.

Further, for example, in the above-described embodiment, the example in which the base fabric bag body 1 and the suspension belt 2 are sewn has been described. However, sufficient attachment strength is sufficient even if adhesion or the like is used.
Further, for example, in the above-described embodiment, the example in which the suspension belt 2 is formed in an endless shape and is orthogonally attached to the bottom surface of the base fabric bag body 1 has been described, but a plurality of belts are appropriately attached to the base fabric bag body 1. You may do it.

DESCRIPTION OF SYMBOLS 1 Base fabric bag body 1A Mouth restricting part 2 Hanging belt 3 Mouth restricting rope A Civil engineering sandbag L Length

Claims (5)

A cylindrical base fabric bag body filled with filling material;
A suspension belt formed in an endless shape and attached orthogonally on the bottom surface of the base fabric bag body,
A mouth-squeezing belt attached at a certain distance below the mouth of the base fabric bag body;
Have
The attachment of the base fabric bag body and the suspension belt is sewing with a sewing thread containing an ultraviolet shielding agent made of a reflective agent or an absorbent,
The reflective agent is carbon black, iron oxide, chromium oxide, lead oxide, zinc oxide, magnesium oxide, titanium oxide, calcium carbonate or barium sulfate;
A sandbag for civil engineering, wherein the absorbent is a phenyl salicylate, hydroxybenzophenone or benzotriazole. A cylindrical base fabric bag body filled with filling material;
A suspension belt for lifting, which is composed of an endless belt, is attached to the base fabric bag body so as to be orthogonal to the bottom surface of the base fabric bag body, and has two suspension portions formed on the upper portion of the base fabric bag body;
A mouth-squeezing belt attached at a certain distance below the mouth of the base fabric bag body;
Have
The base fabric bag body and the suspension belt are formed by weaving polyester fiber yarns containing an ultraviolet shielding agent,
The attachment of the base fabric bag body and the suspension belt is sewing with a sewing thread containing an ultraviolet shielding agent,
A reflective agent or an absorbent is used as the ultraviolet shielding agent,
The reflective agent is carbon black, iron oxide, chromium oxide, lead oxide, zinc oxide, magnesium oxide, titanium oxide, calcium carbonate or barium sulfate;
A sandbag for civil engineering, wherein the absorbent is a phenyl salicylate, hydroxybenzophenone or benzotriazole. A cylindrical base fabric bag body filled with filling material;
A suspension belt for lifting, which is composed of an endless belt, is attached to the base fabric bag body so as to be orthogonal to the bottom surface of the base fabric bag body, and has two suspension portions formed on the upper portion of the base fabric bag body;
A mouth-squeezing belt attached at a certain distance below the mouth of the base fabric bag body;
Have
The base fabric bag body and the suspension belt are formed by weaving a polypropylene film yarn containing an ultraviolet shielding agent,
The attachment of the base fabric bag body and the suspension belt is sewing with a sewing thread containing an ultraviolet shielding agent,
A reflective agent or an absorbent is used as the ultraviolet shielding agent,
The reflective agent is carbon black, iron oxide, chromium oxide, lead oxide, zinc oxide, magnesium oxide, titanium oxide, calcium carbonate or barium sulfate;
A sandbag for civil engineering, wherein the absorbent is a phenyl salicylate, hydroxybenzophenone or benzotriazole.   The sandbag for civil engineering according to any one of claims 1 to 3, wherein the reflective agent is carbon black, and the absorbent is a phenyl salicylate type.   The sandbag for civil engineering according to any one of claims 1 to 3, wherein an extra strength is provided in advance corresponding to the strength deterioration due to ultraviolet rays after the lapse of time for at least one year.

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