JP3571005B2 - Flex container for civil engineering - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a flex container bag (hereinafter, referred to as a "flexible bag") used by inserting earth and sand into civil engineering work for emergency repair such as a deadline of a river embankment.
[0002]
[Prior art]
In order to urgently repair levee or sabo dams or slope landslides where rivers have been washed away due to floods, etc., we will fill rivers with embankments for use in civil works to construct weirs or retaining walls on slopes. FIBC bags are filled with approximately 0.5 tons, 0.7 tons or 1 ton of earth and sand. This flexible container bag is conventionally manufactured from a plastic bag such as polypropylene. By the way, FIBC bags filled with earth and sand are embankment or embankment as an emergency repair dike, or after being piled up as a retaining wall, even if a full-scale weir, dike or retaining wall is built near it Is left in a repaired state with the earth and sand packed at the site. However, the plastic material of the conventional flexible container bag does not normally decompose in the natural environment and will remain as a plastic material forever.
[0003]
In recent years, environmental pollution has become a problem. The above-mentioned conventional plastic flexible container bag is also used for civil engineering work and left at the site as it is, so it remains without being decomposed, and this is becoming a problem as environmental pollution. Therefore, there is a strong demand from customers for a flexible container bag using 100% of a natural material that naturally decomposes in a natural environment for civil engineering work. For example, attempts to use 100% natural fiber jute have been researched and developed by various vendors. However, with 100% natural fiber jute (ie "burlap"), when lifted with a crane against a maximum weight of more than 1 ton as a FIBC bag, the FIBC bag breaks and loses its weight. Can not stand. At present, the development of flexible container bags made of 100% natural fibers that can withstand such weights and has been lifted has not yet been successful.
[0004]
[Problems to be solved by the invention]
The problem to be solved by the present invention is to respond to the above-mentioned problems and to consider environmental issues, while using a 100% natural material for the flexible container bag for civil engineering work, but at the maximum using a crane or the like in civil engineering work. An object of the present invention is to provide a flexible container bag having a combination and structure of materials having a strength enough to withstand the lifting even when the flexible container bag filled with tons of earth and sand is lifted.
[0005]
[Means for Solving the Problems]
According to a first aspect of the present invention, a canvas made of jute, which is a natural fiber, is sewn with a sewing thread made of ramie, which is a natural fiber, and comprises a bottom 2 and four side walls 3. A cubic bag 5 is formed , and a horizontal belt 6a of a belt made of ramie, which is a natural fiber, is disposed on the bottom 2 and the side wall 3 of the cubic bag 5 outside the side wall 3 of the cubic bag 5 and on the outside of the cubic bag 5. A vertical belt 6b of a belt made of ramie, which is a natural fiber disposed vertically, is wrapped around the vertical belt 6b. The vertical belt 6b is disposed outside the bottom 2 of the cubic bag 5, and the corner formed by the adjacent side wall 3 of the cubic bag 5. The portion 9 is sandwiched and extended above the side wall 3 to form a ring 7, which is arranged in a single stroke as a continuous body of one belt, and the horizontal belt 6a and the vertical belt 6b are formed by a sewing thread made of ramie. Attached by sewing disposed on flexible container bag 1, the vertical one upper belt 6b and the formation of the other of the upper end of the adjacent the ring 7 for civil works, characterized in that the lifting portion for slinging This is a flexible container bag 1.
[0006]
According to the second aspect of the present invention, a belt made of a natural fiber ramie, which is a natural fiber sewn by sewing a canvas 10 of a jute canvas, which is a natural fiber for reinforcement, is attached to an upper portion of each of the side walls 3 outside the cubic bag 5. The upper end of the sewn portion of the belt 6 is a portion of the patch cloth 10, the belt 6 above the portion of the patch cloth 10 is a ring 7 separated from the side wall 3, and a portion around the bottom 2 of the cubic bag 5. 2. A flexible container bag 1 for civil engineering work according to the means of claim 1 , wherein a belt of jute, which is a natural fiber, is attached to the outside to form a reinforcing band 8.
[0007]
According to the third aspect of the present invention, the canvas made of jute, which is a natural fiber, is made of a blend of jute and ramie, the blend ratio of the jute is 55 to 100%, the balance is ramie, and the canvas is made of ramie, a natural fiber. 3. The flexible container bag 1 for civil engineering work according to claim 1, wherein the belt and the sewing thread are made of a blend of ramie and jute, and the blend ratio of the ramie is 50 to 100% and the remainder is jute. .
[0008]
According to the fourth aspect of the present invention, a rectangular tubular covering cloth 14 composed of four side walls 12 is disposed by hanging on the inside 11 of the upper end of the side wall of the cubic bag 5, and a tie 13 is provided in one side wall of the rectangular tubular shape. The flexible container bag 1 for civil engineering work according to any one of claims 1 to 3 , characterized by comprising:
[0009]
The operation of the above means of the present invention will be described. In the FIBC bag 1 of the present invention, the cubic bag 5 as the main body is made of a canvas material mainly composed of jute made of 100% natural fiber. As time elapses, the strength of the jute fibers of the cubic bag 5 decreases under the natural environment, and the bag cannot function as a bag. However, the shape of the bag remains for two to three years and remains between soil and sand. However, the strength gradually weakens and decomposes under the natural environment, so that the natural environment will not be harmed even if it remains in the soil as it is. By the way, when manufacturing a flexible container bag from jute only, the jute is relatively flexible and, in terms of tensile strength, if you put up more than 1 ton of earth and sand and lift it for construction, the bag will break. It is not enough, for example. When the inventor considered this point, he produced a belt 6 from a belt made of ramie, a ramie of natural fibers made of a material having extremely high tensile strength, and wrapped the belt 6 around the cubic bag 5 to obtain a cube. This is to reinforce the strength of the bag 5. The cubic bag 5 and the belt 6 are sewn with sewing thread made of ramie. These ramie belts and ramie threads need not necessarily consist of 100% ramie, but consist of a blend of ramie and jute, with the blend component comprising 50-100% ramie and the balance jute. You can also. Since the ramie belt of such a belt 6 is also made of natural fibers, it decomposes and disintegrates under the natural environment like a jute, and does not harm the natural environment. In addition, in order to reinforce the jute cube bag 5 itself before reinforcing with the ramie belt 6, a padding made of a jute canvas, for example, around the bottom 2 of the cube bag 5, is provided on the main part outside the cube bag 5. When the corner of the bottom 2 and the side wall 3 is reinforced by providing a reinforcing band 8 consisting of a portion, or when the base of the ring 7 composed of the belt 6 above the side wall 3 of the cubic bag 5 is lifted, A cloth 10 for jute is provided on the outside of the portion to be hung. Of course, the jute canvas of the cube bag 5 and the address cloth 10 which is the main body of the FIBC bag 1 does not necessarily need to be made of 100% jute, but is made of a blend of jute and ramie. May be 55 to 100% with the balance being ramie.
[0010]
Further, the belt 6 made of a ramie belt having a high tensile strength is wound around the outer peripheral surface and the bottom of the side wall of the cube bag 5 itself of the jute FIBC 1 in the horizontal and vertical directions, and lifted. The side wall 3 is reinforced so as to be able to withstand the pressure applied in the lateral direction when it is pressed. In particular, the horizontal belt 6a in the horizontal direction is wrapped around the portion where the cloth 10 is attached to the side wall 3, which is the attachment portion of the ring 7, to reinforce the side wall 3 in this portion where the most force is applied during lifting. Further, the vertical belt 6b of the ramie wrapped around the side wall 3 in the vertical direction is also wrapped around the outside of the bottom surface 2 and further extended upward from the upper end of the side wall 3 to form the ring 7, so that the wrapped belt 6 becomes 1 The continuum of the book has a one-stroke structure, in which a cubic bag 5 made of jute is held from the bottom, and the above-mentioned ring 7 sandwiches a corner 9 formed by two adjacent side walls of the cubic bag 5. Therefore, it is formed in an extremely strong reinforcing structure. As a result, the flexible container bag 1 has a structure that does not break even if more than one ton of earth and sand is packed and lifted by a crane for construction work.
[0011]
Further, a covering cloth 14 consisting of four bottomless rectangular tubular side walls 12 is hung from the inside of the upper end 11 of the side wall of the cubic bag 5 of the FIBC bag 1, and one side wall 12 is provided with a tie string. When stuffed, the side walls 12 of the covering cloth 14 are lifted onto the stuffed earth and sand, and all the side walls 12 are gathered near the center and tied with a tying string 13 to form the earth and sand cover 18 as a drawstring portion 17, and at the time of construction or after construction The flexible container bag 1 in which the packed earth and sand does not leak from the cubic bag 5 is obtained.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a schematic perspective view of one embodiment of the flexible container bag of the present invention. FIG. 2 is a schematic perspective view of the flexible container bag of FIG. 1 as viewed from the bottom side. FIG. 3 is a schematic perspective view of a flexible container bag according to another embodiment of the present invention, in which (a) is a rectangular tubular covering cloth, and (b) is a cube of the rectangular tubular covering cloth of (a). It is a typical perspective view of the flexible container bag attached to the upper end in a bag. FIG. 4 is a schematic perspective view showing a part of a cubic bag by partially cutting the flexible container bag of FIG. 5A and 5B are diagrams illustrating a method of using the flexible container bag of FIG. 3, wherein FIG. 5A illustrates a method of using a rectangular tubular covering cloth, and FIG. 5B schematically illustrates a method of using the flexible container bag. It is a perspective view.
[0013]
An embodiment of the present invention will be described. The flexible container bag 1 has a cubic bag 5 for stuffing more than 1 ton of earth and sand, and a belt 6 for reinforcing the cubic bag 5 and lifting it with a crane at the time of construction. Attached. The upper end of the belt 6 extending on the side wall 3 of the cubic bag 5 is formed on a ring 7 for slinging of a crane.
[0014]
The material of the cubic bag 5 which is the main body of the flexible container bag 1 is made of a jute canvas made of 100% natural fibers which can be decomposed in a natural environment. In the case of the flexible container bag 1 for 1 ton, the density of the canvas is 94 lines / 10 cm in the vertical direction, 47 lines / 10 cm in the horizontal direction, and the weight is 760 g / m ² . However, it may be 700 to 800 g / m ² . The canvas of this jute is cut and sewn to form a cubic bag 5 measuring 110 cm long × 91 cm wide × 91 cm deep. Of course, the above jute canvas does not need to be 100% jute, but can be a blend of jute and ramie depending on the weight of the FIBC bag 1 packed with earth and sand. The remainder can be a ramie canvas.
[0015]
The material of the belt 6 for reinforcement and lifting is made of a natural fiber ramie belt which can be decomposed in a natural environment like a jute. The woven fabric of the belt 6 is sewn from a woven fabric having a width of 72 mm, a density of 46 threads / cm in the vertical direction, and a density of 66 threads / cm in the horizontal direction, and weighs 70 g / m. However, it may be 60 to 90 g / m. Of course, the above ramie belt does not need to be 100% ramie, but can be a blend of ramie and jute depending on the weight of the FIBC bag 1 packed with earth and sand, and the ramie blend ratio is in the range of 50-100%. The rest can be a belt made of jute. Ramie has twice the strength of jute, but it costs 2.5 times, so it should be decided in consideration of cost and strength. Needless to say, the material of the thread used for sewing the cubic bag 5 and the belt 6 of the flexible container bag 1 is ramie having a high strength. However, as described below, a mixed spun yarn of ramie and jute can be used.
[0016]
That is, the material of the sewing thread used for the above-described sewing and the sewing for attaching the belt 6 to the cubic bag 5 is made of 100% ramie, and has a jute count of 5th count × 3PLY (layer). However, it suffices if it is 5th to 7th × 3PLY. Of course, in consideration of the required strength of the FIBC bag 1 as in the case of the ramie belt, it is needless to say that this ramie thread can also be composed of ramie with a blending ratio of 50-100% of ramie and the rest jute. Nor.
[0017]
By using a material consisting of the above-mentioned specifications, unlike a simple jute flexible container bag that has been researched and developed, the flexible container bag 1 of the present invention can be sufficiently constructed even if more than one ton of soil is packed. It is formed to be durable.
[0018]
The cubic bag 5 in the 1-ton flexible container bag 1 has, for example, a size of 20.5 cm × 17 cm at two locations, each of which is closer to the corner 9 by about 15 cm below the upper end of each side wall 3 having a height of 110 cm. The side cloth 3 is sewn with a ramie thread to reinforce the cloth 10 for the jute canvas. Further, a reinforcement band 8 of a 9 cm-wide jute-addressed cloth is sewn around the corner of the bottom 2 of the cubic bag 5 and each side wall 3 with a ramie thread to reinforce it. First, the cubic bag 5 reinforced as described above is formed by horizontally wrapping a belt 6 made of the above-mentioned ramie having a width of 7 cm around the outside of the four side walls 3 and sewing it with ramie sewing thread to form a horizontal belt 6a. The outer periphery of the cubic bag 5 is reinforced. In the present embodiment, the horizontal belt 6a is provided on the side wall so as to be separated into two upper and lower stages. Next, as shown in FIG. 2, a 7 cm wide belt 6 made of ramie is wrapped around the crossbeam outside the bottom 2 of the cubic bag 5 and sewn with ramie sewing thread. In this case, it is assumed that the 7 cm wide belt 6 made of ramie is composed of one long belt, and this one belt 6 is not only the bottom 2 but also the four side walls to which the horizontal belt 6a is attached first in the upper and lower two stages. The belt 6 is sewn with ramie thread in the vertical direction up to the upper cloth 10 on the outer side of the belt 3 and attached to form a vertical belt 6b. Further, the upper side of each side wall 3 is freely sewn to the side wall 3 without sewing, and further extended to the upper end of each side wall 3 and folded back in a ring shape to form a lining for the adjacent side wall 3. The part up to the portion is formed on the ring 7. Further, the vertical belt 6b is attached by sewing in the vertical direction from the portion of the cloth 10 to be applied to the side wall 3, and the tip of the vertical belt 6b is wrapped around as one of the cross beams shown at the tip of the bottom 2. In this way, two vertical belts 6b are provided on each side wall 3, and the bottom 2 is wrapped around the above-mentioned girder to form a continuous body with one stroke. As a result, each side wall 3 is also reinforced by two horizontal belts 6a and two vertical belts 6b. In addition, a reinforced cloth 15 for the ramie belt is formed on the back side of the ring 7 of the belt 6 so that the ring 7 is not cut even when the belt 7 is lifted by the ring 7.
[0019]
Therefore, the vertical belt 6b extends above the side wall 3 to form a ring 7 so as to sandwich the corner 9 formed by the adjacent side wall 3. As a result, four rings 7 are formed, and these four rings 7 are used for slinging when hoisting with a crane. In this case, since each ring 7 holds the corner 9 at the center, the flexible container bag 1 packed with earth and sand can be stably held. As described above, since the bottom 2 and the side wall 3 of the cubic bag 5 are hung both horizontally and vertically by the belt 6 made of strong ramie, the flexible container bag 1 has an extremely strong structure, and has Even if this flexible container bag 1 falls down if it is packed with earth and sand, it will not be able to withstand the weight of the contents and will not break.
[0020]
In another embodiment, a covering cloth 14 shown in FIG. 3A is attached to the inside 11 of the upper end of the side wall of the cubic bag 5 of the flexible container bag 1 and hangs inside. This covering cloth 14 consists of a bottomless cylinder 70 cm in height consisting of four side walls 12 of slightly thin cloth made of jute hessian cloth, and when the inside of one side wall 12 is filled with earth and sand, the covering cloth 14 shown in FIG. As shown in (a), after being lifted in the lifting direction 16 on the side wall 3 of the cubic bag 5, a knotting string 13 for squeezing to a purse and forming a knotting purse part 17 is attached. As shown in FIG. 5B, the earth and sand packed in the FIBC bag 1 is covered with the cover 18, so that the earth and sand do not spill out.
[0021]
The flexible container bag 1 according to the present invention described above has been developed for civil engineering. However, since the flexible container bag 1 has a structure capable of withstanding a weight of 0.5 to 1 ton or more, it is needless to say that the flexible container bag 1 can be used as it is for a grain storage bag without limiting its use for civil engineering work. Nor. In particular, this storage bag made of natural fiber jute or ramie is particularly excellent for storing and transporting grains because air can flow into and out of the storage bag through the jute canvas.
[0022]
【The invention's effect】
As described above, the present invention provides a flexible container bag made of 100% natural fibers, and further horizontally wraps around the side wall of the cubic bag of the body of the flexible container bag with a strong belt made of ramie of natural fibers. At the same time, the side wall of the cubic bag is made vertical, and the bottom of the cubic bag is used as a continuum of a single belt with the bottom spar, and it is reinforced for lifting, so the belt strength of the ramie belt is strengthened. Is fully reinforced and the cubic bag of the main body is reinforced to the utmost extent, and a large flexible container bag can be lifted by packing 1 ton or more of earth and sand. Even if it is accidentally dropped, the flexible container bag breaks Civil engineering work can be performed safely without performing. Furthermore, jute and ramie of the natural fiber of the FIBC bag material will be decomposed under the natural environment even if left in the piled state for a long time after construction, so it will be forever like a conventional FIBC bag made of polypropylene The present invention has excellent effects such as remaining without being decomposed and not polluting the environment.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of one embodiment of a flexible container bag of the present invention.
FIG. 2 is a schematic perspective view of the flexible container bag of FIG. 1 as viewed from the bottom side.
FIG. 3 is a schematic perspective view of another embodiment of the flexible container bag of the present invention, in which (a) is a rectangular tubular covering cloth, and (b) is a rectangular tubular covering cloth of (a). It is a perspective view of the flexible container bag attached to the upper end in a cubic bag.
4 is a schematic perspective view showing a part of a cubic bag by partially cutting the flexible container bag of FIG. 3;
5A and 5B are diagrams illustrating a method of using the flexible container bag of FIG. 3, wherein FIG. 5A schematically illustrates a method of using a rectangular tubular covering cloth, and FIG. 5B schematically illustrates a method of using the flexible container bag. It is a perspective view.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Flexible container 2 Bottom 3 Side wall 4 Joining part 5 Cube bag 6 Belt 6a Horizontal belt 6b Vertical belt 7 Ring 8 Reinforcement band 9 Corner portion 10 Cloth 11 Side wall upper end inside 12 Side wall 13 Knot cord 14 Cover cloth 15 Reinforcement cloth 16 Lifting direction 17 Drawstring part 18 Cover

Claims (4)

A canvas made of jute, which is a natural fiber, is sewn with a sewing thread made of ramie, which is a natural fiber, to form a cubic bag having a bottom and four side walls, and the bottom and side walls of the cubic bag are horizontally arranged outside the side wall of the cubic bag. The horizontal belt of the belt made of Lamy, which is a natural fiber disposed in, and the vertical belt of the belt made of Lamy, a natural fiber disposed vertically outside the cubic bag, is wrapped around the belt, and the vertical belt is placed on the bottom of the cubic bag. By arranging it on the outside and sandwiching the corner formed by the adjacent side wall of the cubic bag and extending above the side wall to form a ring, it is arranged in a single stroke as a continuous body of one belt. disposed on flexible container bag attached by sewing by the sewing thread comprising a vertical belt from ramie, ball said rings formed from other upper end of the adjacent one upper end of the vertical belt Flexible container bag for civil engineering work which is characterized in that the lifting part for only. Attachment of a jute canvas as a natural fiber for reinforcement is attached to the upper part of each side wall on the outer side of the cubic bag. A belt, a belt separated from a side wall of the belt, and a jute band of natural fiber is attached to the outside of the periphery of the bottom of the cubic bag to form a reinforcing band. The flexible container bag for civil engineering work according to claim 1 . The canvas made of jute, which is a natural fiber, is made of a blend of jute and ramie. The blend ratio of the jute is 55 to 100%, the remainder is ramie, and the belt and sewing thread made of ramie, which is a natural fiber, are ramie and jute. 3. The flexible container bag for civil engineering work according to claim 1 , wherein the blend ratio of the ramie is 50 to 100% and the balance is jute. 2. A rectangular tubular covering cloth comprising four side walls is sewn down by sewing on the inside of the upper end of the side wall of the cubic bag, and a tie string is provided in one side wall of the rectangular tubular shape. 4. The flexible container bag for civil engineering work according to any one of items 3 to 3.

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