JPWO2007132536A1 - Large specific gravity protective bag - Google Patents

Abstract

It is easy to handle, can be inflated in a matter of minutes no matter who handles it, can receive the water force expected when constructing a waterproof embankment, and is also effective for waterproofing and bulletproof use Providing a highly specific and large specific gravity protective bag. Therefore, the present invention provides a protective bag that inflates the superabsorbent polymer disposed inside the constituent material by supplying moisture to the inside of the constituent material having a bag-like structure and maintains a flat form by the expansion pressure. 10, the superabsorbent polymer 14 is filled in the container 11 made of a water-soluble resin, and the required amount is divided into a plurality of parts and arranged inside the constituent material 12, and has a higher specific gravity than water. The weight body 15 filled with the large specific gravity material 16 is disposed inside the constituent material 12, and the constituent material 12 has a sheet material knitted using resin fibers.

Description

  The present invention relates to a high specific gravity protective bag that inflates a superabsorbent polymer disposed inside a constituent material having a bag-like structure by supplying moisture and maintains a flat and constant form by an expansion pressure. is there.

Various structures have been used to stop the prevailing external forces applied from the outside. The contents of the prevailing external force vary, but for example, barricades and the like are constructed using concrete, metal, earth and sand, wood, etc., for applications that block or prevent flying bullets and debris. In particular, when trying to counter terrorist activities, it was effective to build a barricade using sandbags in order to be resistant to firearm attacks. Sandbags have also been used to stop floods. However, in order to make sandbags, earth and sand are required, and in urban areas where there is no available earth and sand nearby, it is required to take defensive measures that do not use earth and sand.
On the other hand, a utility model registration No. 3105887 has been proposed as a bulletproof sandbag, which is said to have the same strength as a sandbag filled with earth and sand and can be expected to have a sufficient bulletproof effect. According to the present invention, a powdered water-absorbing polymer is sealed in a flat bag, and it has the advantage that the storage space may be narrow during transportation and storage. Therefore, this is considered to be able to meet the above-mentioned demands in urban areas.
However, since the device only describes that a water-absorbing polymer is enclosed in a bag and the bag is formed in a flat shape, how to swell the bag formed in a flat shape becomes a problem. That is, in this device, a water-absorbing polymer is sealed in an inner bag made of cotton and put in a hemp bag to make the whole flat, so when full, the center of the fold swells most like a lens and gradually becomes thinner toward the periphery. The form and the thickness of the bag is not uniform. This is as shown in FIG. 2 in the publication of the device, and when such inflated bags are stacked, a gap is formed at the end of the bag having insufficient thickness, and the bullets are allowed to pass without being blocked. Cause fear. As a result, it is useless unless a considerable amount of bags are used. Therefore, work efficiency is not good, and when bags are stacked in multiple stages, the center is swelled so that it tends to be unstable, and there remains anxiety as a sandbag that actually entrusts life.
Moreover, said device has described using fine cotton cloth for an inner bag as a countermeasure against the leakage of an internal water absorption polymer. However, even when the cotton fabric is left in contact with water for a long period of time, it is difficult to say that the strength is maintained, so there is a problem that it is unclear how much durability the fine cotton fabric can be expected. In particular, how much it can withstand when an external force is applied after building a protective wall is completely unknown.
In addition, since this kind of thing uses water, it may be called a water sacs with respect to the sandbag which uses earth and sand. And it has been recognized that the water sacs have significant drawbacks in addition to morphological and structural dissatisfaction. This is due to the fact that the total specific gravity is the same as that of water because water is used. Since it has a specific gravity equivalent to that of water, it will be in a state where it will float easily due to the prevailing water force, and it will have a fatal defect that the function as a waterproof embankment will be insufficient. Therefore, the conventional water sac cannot be used for water proofing, apart from a bulletproof sandbag. The inventor conducted research on protective bags to improve these drawbacks and developed the present invention.

The present invention has been made paying attention to the above points, and its problem is that it is easy to handle and can be inflated in a matter of minutes regardless of who is handling it. It is to provide a large specific gravity protective bag effective against the above. Another object of the present invention is to provide a high specific gravity protective bag that is highly effective for both waterproofing and bulletproof purposes.
In order to solve the above-mentioned problems, the present invention expands the superabsorbent polymer disposed inside the constituent material by supplying moisture into the constituent material having a bag-like structure, and is flattened by the expansion pressure. For the protective bag that maintains the form, the superabsorbent polymer is filled in a container made of a water-soluble resin, and the required amount is divided into a plurality of parts and placed inside the component, and the specific gravity is higher than that of water. A weighted body filled with a large specific gravity material is arranged inside the constituent material, and the constituent material has a means of having a sheet material woven using resin fibers.
The large specific gravity protective bag according to the present invention expands the volume of the superabsorbent polymer as a gel by supplying moisture to the superabsorbent polymer disposed inside the component having a bag-like structure, and expands. A certain flat shape is maintained by pressure. As the highly water-absorbing polymer, for example, a powder of a crosslinked polyacrylate is preferable, and this absorbs water and expands. Examples of usable superabsorbent polymers other than the crosslinked polyacrylate include sodium polyacrylate (PSA) and starch / polyacrylic acid graft polymer.
These super absorbent polymers show the best expansion performance when using fresh water. Water other than fresh water, such as seawater, can be used. When seawater is used, the cross-linked polyacrylic acid metal salt is used at a concentration of 90 percent or more, more preferably at a concentration of 92 to 94 percent. It is desirable. Superabsorbent polymers have been used for soil hygiene or horticultural applications such as sanitary materials such as disposable diapers, but can be used in the present invention. The same superabsorbent polymer may be used.
In order to place the superabsorbent polymer in the protective bag, in the present invention, the superabsorbent polymer is filled in a container made of a water-soluble resin. At this time, the required amount of the superabsorbent polymer necessary for the pair of protective bags is divided into a plurality of parts and arranged inside the constituent material. By disposing a plurality of superabsorbent polymers in a distributed manner, compared to the case of one, it becomes easier to come into contact with moisture, so no matter who or how it is handled, water is reliably absorbed in the shortest time, and as a whole It expands evenly.
A typical example of a container made of a water-soluble resin is a simple container such as a small bag or a small box formed using so-called water-soluble paper, and a superabsorbent polymer is filled in the container. Take the configuration to do. A plurality of containers such as a small bag or a small box filled with a highly water-absorbing polymer are arranged at a position where the water-absorbing property is good in the constituent material of the protective bag. Since the material of the container is a water-soluble resin, it is dissolved by the supplied water and does not hinder the expansion of the superabsorbent polymer. As performance necessary for the decomposition of the container made of the water-soluble resin, it is desirable to decompose within several tens of seconds after starting the water supply, more preferably within several seconds to several tens of seconds.
And in this invention, the weight body filled with the large specific gravity substance with larger specific gravity than water is arrange | positioned inside a structural material. Since the weight body prevents the protective bag according to the present invention from being easily floated due to water, the specific gravity should be larger than 1 in principle. However, it is not just that the specific gravity is more than 1, but because of the nature of the protective bag, conditions such as harmlessness and low cost are required. It is even better if it can be collected as resource waste after use. In addition, it is natural that the one with a higher specific gravity is more effective because it opposes the water force, etc., but it is necessary to consider the possibility of movement after expansion and the effect of the load of the protective bag on the structure. In some cases, a lighter type may be better than too heavy.
From this point of view, in the present invention, it is desirable to set the specific gravity of the entire protective bag to be 1.2 or more in the use state in which the superabsorbent polymer disposed inside the constituent material is expanded ( Invention of Claim 2). It is because it is judged by experiment that if the specific gravity is less than 1.2, it cannot be expected to sufficiently achieve the objective of facing the water. Since the upper limit can be used in various situations, it cannot be determined immediately, but it is preferable that the upper limit is not more than 1.5.
For the high specific gravity substance itself, it is desirable that the specific gravity is approximately larger than 3. The biggest reason is that when the specific gravity is considerably smaller than 3, the efficiency as a weight is not good. As will be described later, when the volume of the protective bag after expansion is about 20 to 25 liters, it is most preferable that the protective bag is made of a substance having a specific gravity mainly of iron oxide and about 3.3. (Invention of Claim 3). When these conditions are applied to an actual protective bag, when the volume after expansion of the protective bag is 20 liters, the total weight of one protective bag is 24 kg at a specific gravity of 1.2 and 1.5 kg at a specific gravity of 1.5. 30 kilograms. In the example described later, the specific gravity of iron oxide is about 3.3, the specific gravity of the entire protective bag is 1.3, and the total weight is about 26 kilograms.
The constituent material of the protective bag includes three layers from the minimum one layer to the innermost layer, the intermediate layer, and the outermost layer. As a means of maintaining a certain flat shape of the constituent material, in the case of a bag that is folded into one sheet when folded, a bag with a gusset portion located between two flat front and back surfaces shall be used. By this gusset portion, it is possible to form a flat solid having front and rear, left and right side surfaces with sufficient thickness surrounding the periphery of the two front and back surfaces (the invention according to claim 4). If it takes this form, it will take up space before use, and when it expands, it will become flat like a chopped fold, so it is considered to be the most ideal. The gusset portion is provided on the component when the protective bag is composed of only one component. However, when it is composed of a plurality of components as described later, the gusset portion is most like kraft paper, for example. It may be installed on any of the components such as strong components.
As described above, the configuration in which the constituent material has a plurality of layers inside and outside provides favorable effects in various directions such as improvement in strength and ease of stacking. In that case, the innermost layer is made of a woven fabric using resin fibers, the outside is covered with a component made of water-resistant kraft paper, and the outside is a hemp bag or an exterior body having almost the same strength and friction The multilayer structure having a structure covered with is an example desirable for waterproofing (the invention according to claim 5). The exterior body that covers the outer surface of the protective bag can increase the structural strength, and the woven fabric can be prevented from slipping when the protective bag is stacked. Synthetic resin bags that do not have the characteristics of natural hemp bags can also be used. In that case, resin can be applied to the flat front and back surfaces of the protective bag to give strength improvement and anti-slip effects. To increase the effectiveness and make it the same as the weaving structure.
In the protective bag of the present invention, when a layered structure including a plurality of water-resistant kraft papers is applied as a constituent material, a large number of water conveyance holes can be formed on the two flat front and back surfaces as a whole. . Kraft paper is tough and flexible as paper, and is more preferable as a protective bag by having water resistance. Furthermore, when the protective bag includes a sheet material woven using synthetic resin fibers, the woven structure constitutes another means for improving the water absorption efficiency. Since the sheet material has a woven structure, moisture can easily enter and good supply properties can be maintained, and leakage of the superabsorbent polymer can be prevented after expansion.
The weight body affects the water absorption performance of the high specific gravity protective bag depending on the form. That is, when the constituent material having a bag-like structure has a rectangular front shape, the weighted body is configured to form a container having an elongated shape in the direction of the short side of the rectangle of the constituent material and to fill the container. Is desirable (see FIG. 1). By arranging a container of such a form laterally at the substantially central part of the constituent material of the protective bag having a bag-like structure, the constituent agent is pressed by the load at the central part. 6B, both ends are lifted by buoyancy, and as a result, the center part swells and the gusset part opens, creating a space inside the component and improving water absorption performance. Can be made.
When the protective bag is inflated by water absorption, it becomes a flat rectangular parallelepiped having a sufficient thickness, for example, 10-20 centimeters or more, and can be stacked stably and formed flat. Therefore, it is convenient from the viewpoint of storage and transportation. In addition, it is understood that the water guide hole formed in the constituent material including a plurality of water-resistant kraft papers serves as an escape route for the pressure inside the expanded superabsorbent polymer. It is also considered to have an effect of inducing a movement path of a bullet driven into the polymer.
In order to arrange a plurality of containers into which the superabsorbent polymer is divided in the protective bag, several methods can be taken. Most simply, the container can be directly bonded to the inner surface of the constituent material of the protective bag having the innermost woven fabric structure. In addition, the frame body that houses the container may be bonded to the inner surface of the innermost constituent member, and the container may be fixed to the frame body. In that case, the frame body keeps enough space around the container so that the container filled with the superabsorbent polymer is not pressed too much, draws the supplied moisture into the space, and converts the moisture into the superabsorbent polymer. Make it easy to penetrate. However, in the case of the present invention, by placing the weighted body inside the constituent material, the weighted body can play a role of securing a space around the weighted body, so that it is possible to save the trouble of fixing using the frame body.
It is a desirable configuration to use a woven fabric made of synthetic fiber and having a knitted fabric to form a reinforcing means for increasing the strength of the protective bag and to cover the inner surface of the protective bag using the reinforcing means. is there. Being a woven fabric is a desired structure for allowing moisture to permeate into the interior, and at the same time satisfies the condition of a tough structure. The reinforcing means is not limited to one layer. As in claim 5, when the protective bag body has a three-layer structure, there are two layers in total, one layer between them, depending on the intended strength. Can be set as appropriate.
Reinforcing means include those laminated on the surface of kraft paper and tubes that are independent of kraft paper. The reinforcing means is capable of taking two different forms, one that is laminated and integrated on the surface of the protective bag body, and another that is independent from the water-resistant kraft paper. What is laminated and integrated on the surface of the protective bag body does not need to be in a tube shape because it has a cylindrical structure when the bag is made, but an independent separate one must have a tube-like structure.
The present invention is configured and operates as described above, and since the required amount of the superabsorbent polymer is divided into a plurality of parts and arranged inside the constituent material, the supply of moisture to the superabsorbent polymer is quick. And it is done on average, no matter who handles it, it surely expands in a few minutes, and the one that expands has a higher specific gravity than water and is sufficiently against the expected water flow when constructing a waterproof embankment Therefore, stable protection performance can be obtained, and when a waterproof bank or a bulletproof wall is constructed, the intended purpose can be reliably achieved. Further, according to the present invention, when the protective bag is inflated, the flat shape of the rectangular parallelepiped shape is maintained. It can be constructed as a waterproof levee, and is very effective for waterproofing and for bulletproof purposes.

    1 is an exploded perspective view showing an example of a high specific gravity protective bag according to the present invention, FIG. 2 is a perspective view showing an expanded state of the high specific gravity protective bag according to the present invention, and FIG. FIG. 4 is a partial cross-sectional view of the same as above, FIG. 4 is a partial cross-sectional view of the same, and FIG. 5 is a partially enlarged cross-sectional view of the high-density protective bag in a non-inflated state. A, B, and C are explanatory diagrams showing the water absorption and expansion processes in the protective bag of the present invention having a high specific gravity, and FIG. 7 is an explanatory diagram showing an example 1 of the stacked state and shooting test of the high specific gravity protective bag of the present invention. FIG. 8 is an explanatory view showing Example 2 in the same manner.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 High specific gravity protective bag which concerns on this invention 11 Container 12 Constituent material of innermost layer 14 Super absorbent polymer 15 Weighted body 16 Iron oxide powder 17 Constituent material of intermediate layer 18 Woven cloth 19 Woven tube 20 Water conveyance hole 21 Sealing band 22 Gusset part 23,24 non-porous part 25 constituent material of outermost layer

Hereinafter, the present invention will be described in more detail with reference to illustrated embodiments. FIG. 1 shows an example of a high specific gravity protective bag 10 according to the present invention. As a superabsorbent polymer, an appropriate amount of a powdery substance is divided into a plurality of pieces and water-soluble paper made of a water-soluble resin is used. The sachet-shaped container 11 formed in this way is filled.
The storage bag 11 is used to hold the powdery superabsorbent polymer in the form of a sachet made of water-soluble paper until it is used, and when it is supplied with water, it absorbs and dissolves. It is made as a bag so that the expansion of can progress. The superabsorbent polymer is made of a powder containing 92% cross-linked polyacrylate, and rapidly expands when water is supplied and dissolved in the water-soluble paper. The material 12 is uniformly distributed inside the material 12.
In the illustrated example, the superabsorbent polymer 14 has a plurality of containers 11 filled with appropriate amounts, and is placed in the innermost component 12 of the protective bag 10. It arrange | positions at the both sides of the longitudinal direction of the body 15, and is being fixed by adhesion | attachment shown with the code | symbol 13 (refer FIG. 4). For this reason, the container 11 is distributed in half and contributes to the equalization of expansion. In addition, as illustrated in FIG. 4, since the gap g is formed around the container 11 and the weight body 15, moisture permeability is also improved.
The illustrated protective bag 10 has a volume after expansion of about 20 liters, and in this case, a weight that prevents the protective bag 10 according to the present invention from becoming easily floating due to water. As the body 15, a powdered iron oxide powder 16 having a specific gravity greater than 1 is filled in a resin bag-like container (water-insoluble). This iron oxide powder has a specific gravity of about 3.3, and the weight of the entire protective bag is about 26 kilograms, which satisfies the condition that it is effective to oppose water. Furthermore, since the product produced in the production process of iron products is used, it satisfies the conditions that it is inexpensive, harmless, and can be recovered as resource waste after use. It is suitable for.
The weight body 15 is filled in a bag-like container having an elongated shape, and the longitudinal direction thereof is arranged in accordance with the direction of the rectangular short side of the component 12. That is, the container-containing weight body 15 having the above-described configuration is disposed horizontally at the center of the component 12, and is fixed to only one inner surface by means such as adhesion (indicated by reference numeral 13 '). Yes. The fixing position is good at the center so that the component 12 is divided into approximately two parts.
The illustrated protective bag 10 has a structure in which the constituent material has a plurality of inner and outer layers, and the innermost constituent member 12 has a structure knitted using resin fibers (see FIG. 1, FIG. 4, FIG. 5). What is woven using resin fibers, that is, resin sheets are made of polyethylene cloth (PEC) using polyethylene fibers, exhibit water permeability, absorb water, and expand in a crosslinked polyacrylic state in a gel state. Prevent leakage of superabsorbent polymer consisting of acid salts. In the example of FIG. 1, the constituent material 12 is shown as the innermost layer among the constituent materials forming the inner and outer layers, but the constituent material 12 alone also constitutes the high-specific gravity protective bag 10 according to the present invention. To do.
The constituent material of the illustrated protective bag 10 is composed of constituent materials 17 and 25 having a plurality of inner and outer layers, as will be further described below. As described above, the innermost layer 12 is formed by knitting using resin fibers, and the outside is covered with the component 17 made of water-resistant kraft paper, and further, the outermost portion is a hemp bag or substantially equivalent to it. It has a structure covered with a constituent material 25 of the outermost layer made of an exterior body having strength and friction. Here, the bag structure of the constituent material 17 of the intermediate layer has the gusseted portion 22 of the folded structure, and the constituent material 12 of the innermost layer and the constituent material 25 of the outermost layer form a thickness corresponding to the gusseted portion 22. Has enough space for possible dimensions.
In the structure of inner and outer layers, the intermediate layer component 17 is made of water-resistant kraft paper and has a size corresponding to the required amount of superabsorbent polymer, and in the illustrated case, 20 kilograms having a layered structure. It is for. Further, the constituent material 17 of the intermediate layer made of water-resistant kraft paper has a reinforcing means in which a woven fabric 18 made of polyethylene fiber is laminated on the surface (inner surface) (see FIG. 5). The above-mentioned woven fabric 18 is formed through a cylinder-making and bag-making process using a constituent material 17 of an intermediate layer of water-resistant kraft paper, which is laminated by, for example, heat welding. The material of the woven fabric 18 is not limited to polyethylene, but polypropylene and other materials can be used. However, it is necessary to have a knitted structure in order to ensure water permeability and increase the strength of the entire bag. Moreover, if it is a woven structure, even if it drives a pile and opens a hole in order to fix the stacked protective body, it is convenient because the hole tends to be closed.
Another reinforcing means is a woven tube 19 that is independent of the intermediate layer component 17 (see FIG. 5). The woven tube 19 is disposed in the innermost layer of the water-resistant kraft paper bag. Therefore, the portion constituting the constituent material 12 of the innermost layer described above also has a reinforcing function. The woven tube 19 has a tubular structure (tubular structure), and the openings at both ends of the tubular structure are closed by the sealing band 21 in the bag making process. The sachet-shaped container 11 is fixed to the component 12 (in the innermost layer) before the protective bag 10 is closed by the sealing band 21. As the fiber material of the knitted and woven tube 19, polyethylene cloth (PEC) as well as polypropylene and the like can be used in the same manner as the woven cloth 18, but in the case of illustration, the woven cloth 18 has a thickness close to a film. As a planar form, the integrity to the intermediate layer constituting material 17 is enhanced, whereas the fiber material of the woven tube 19 is formed thicker.
A large number of water guide holes 20 for supplying moisture to the superabsorbent polymer are formed in the entire intermediate layer constituting material 17 having the above-described configuration. The water guide holes 20 are provided almost on the entire front and back surfaces so that moisture can be quickly supplied from almost all directions to the container 11 of the container arrangement portion fixed to the innermost layer constituent material 12. It is formed with an even distribution. However, although the water guide hole 20 may be provided on the gusset portion side, a non-hole portion 23 that does not open the water guide hole 20 is set at both ends close to the sealing band 21. The non-hole part 23 is provided so as to surround the water guide hole 20 in a frame shape, and fulfills the function of directing or limiting the pressure escape field inside the superabsorbent polymer together with the water guide hole 20 on both the front and back surfaces.
Further, for example, a hemp bag is combined with the protective bag 10 as the constituent material 25 of the outermost layer. The outermost layer component 25 has a size and shape that can cover the entire protective bag completely, and has a bag structure in which two or three sides are closed except for the end portion, and the remaining end. The protective bag 10 from the opening 26 to the innermost layer constituent material 12 and the intermediate layer constituent material 17 is housed inside. The outermost layer component 25 is intended for strength improvement means and anti-slip means. In addition, the foamable resin may be applied to the important part of the flat portion of the protective bag, or a rubber band may be hung on the protective bag. It is also possible to take a method. When hemp bags are used as the outermost layer constituent material 25, the protective bag 10 up to the innermost layer constituent material 12 and the intermediate layer constituent material 17 is placed inside, and then the end opening 26 is threaded, stringed, wire or stapled. For example, it is desirable to place it completely closed by appropriate means.
Next, the usage method and effects of the protective bag 10 of the present invention configured as described above will be described. First, the protective bag 10 of the present invention is immersed in a tank filled with water so that the side to which the weight body 15 is fixed is down (FIG. 6A). Then, since the protective bag 10 is pressed by the weight body 15 at the lower part of the central part, both ends are lifted by buoyancy, and the central part is inflated to open the gusset part 22 and form a space inside the protective bag 10. (FIG. 6B). Therefore, water easily enters the space in the protective bag, and as a result, water is supplied to the container 11 quickly and sufficiently, and the protective bag 10 is inflated very quickly (FIG. 6C). In this way, by supplying moisture to the superabsorbent polymer, expansion was completed in 5 to 7 minutes, and a protective bag 10 having a height of about 17 centimeters and a weight of about 26 to 27 kilograms was obtained. FIG. 2 shows the appearance of the protective bag 10 of the present invention inflated to the innermost layer component 12 and the intermediate layer component 17, and FIG. 3 shows the protection in which the protective bag 10 of FIG. 2 is covered with the outermost layer component 25. The external appearance of the bag 10 is shown.
The inflated protective bag 10 of the present invention is a flat but thick rectangular parallelepiped like a chopped scissors, and is almost in close contact when the end side surfaces are pressed against each other. FIG. 6 shows a part of a waterproof embankment constructed by stacking the inflated protective bags 10 of the present invention in the front and rear, three rows, and the top and bottom. On this waterproof levee, a water basin was set up at a time, and about 300 liters were discharged from a distance of 1 meter, and experimented with tolerance to water flow and water repellency. It was judged that it was difficult to leak and could achieve its intended purpose.
As described above, it was proved that the high specific gravity protective bag 10 of the present invention can sufficiently withstand water-proof applications. In particular, since the protective bag 10 forms a flat and thick rectangular parallelepiped, it is easy to handle at the time of construction, and the constructed waterproof levee is solid as a temporary structure and is very stable against external force. . Moreover, since the protective bag 10 has been confirmed to maintain the expected performance for almost 6 months in a state where the filled superabsorbent polymer has expanded, it is sufficiently possible to perform restoration work during that period. is there.
Also, a bullet (caliber 5.56 mm, dose 55 grains) was shot from a point 24 meters away from this target with a M16A1 type rifle. When 5 shots were shot in a single shot, all were received by the protective bag 10 of the present invention, and when 30 shots were fired continuously, 12 shots dropped from the top row of the front row, 16 shots dropped from the top row of the middle row, Two shots resulted in the bottom row going down from the upper row, and there was no one penetrating the protective bag row of the present invention. Further, FIG. 7 shows that the protective bags 10 of the present invention inflated on a wooden pallet are arranged in three rows in front and rear, and a bullet (with a caliber of 5.56 mm) is projected from a point 24 meters away from the target by a M16A1 type rifle gun. The shooting test with a dose of 55 grains) is shown. Although 20 shots were fired continuously, all remained in one of the protective bags 10, and none of them penetrated. These shooting tests were conducted in foreign countries. 7 and 8, numbers such as 12b, 16b, etc. indicate the number of bullets b shot in each shooting test.
In addition, it has been found that the protective bag 10 according to the present invention is also characteristic in that it does not cause deformation or damage to the bullet. As described above, even if the direction has been changed by the protective bag 10 and it has fallen down or above, it has been decelerated to a sufficiently safe low speed, and the bullet is recovered almost in its original form without deformation or scratches. It is also suitable for checking the line streak that differs depending on the gun. The used protective bag 10 can be separated into powder and water by adding calcium chloride or the like, and the iron oxide powder of the weight body 15 is collected after use and becomes resource waste. .

    The high specific gravity protective bag according to the present invention can be used extensively as a measure against flooding in urban areas especially in urban disaster prevention, and as a means to prevent water from entering subways and other underground facilities. It can also be used as a bulletproof wall against attacks of urban guerrillas. In particular, even in cities where it is difficult to obtain earth and sand, if water is available, it can be expanded and used as a sandbag.

Claims (5)

A protective bag that inflates a superabsorbent polymer disposed inside the constituent material by supplying moisture to the inside of the constituent material having a bag-like structure, and maintains a constant flat shape by the expansion pressure, The superabsorbent polymer is filled in a container made of a water-soluble resin, and the required amount is divided into a plurality of parts and arranged inside the constituent material, and filled with a high specific gravity substance having a specific gravity larger than that of water. A high specific gravity protective bag in which a weight body is disposed inside a constituent material, and the constituent material includes a sheet material knitted using resin fibers. The high specific gravity protective bag according to claim 1, wherein the overall specific gravity is set to be 1.2 or more in a use state in which the superabsorbent polymer disposed inside the constituent material is expanded. 2. The high specific gravity protective bag according to claim 1, wherein the high specific gravity substance is a substance mainly composed of iron oxide having a specific gravity of approximately 3 or more. As a means for maintaining a certain flat shape, the component material has a gusset portion located between two flat front and back surfaces in the case of a bag that is folded into one sheet when folded, and this gusset portion The high specific gravity protective bag according to claim 1, which forms a flat solid body having front and rear, left and right side surfaces having a sufficient thickness surrounding the front and back surfaces. The component material is composed of a component material comprising a plurality of layers inside and outside, the innermost layer of which is composed of a material woven using resin fibers, and the exterior is covered with a component material composed of water-resistant kraft paper, and further 2. The high specific gravity protective bag according to claim 1, wherein the outer cover is covered with a hemp bag or an exterior body having substantially the same strength and friction.

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