KR101115507B1 - Protect clothing for stab attack - Google Patents

Abstract

The present invention relates to a sword suit, in a sword suit, which is worn to protect the body from the threat of sharp-edged objects such as swords, spears and bamboo spears; The sword suit is formed on the inner side of the wearing surface, the first layer of the aramid yarn woven into a network structure; A second layer stitched to the first layer and formed by being woven in a state where the metal wire is twisted to form a strand wire; It is formed by stitching the first layer and the second layer by sewing, a phenolic resin sheet, urea resin sheet, cross-linked latex sheet, epoxy resin sheet, a sheet having a hard solid layer embedded in a polyacrylate resin Provided is a sword suit comprising a third layer formed in a state in which at least two selected thin sheets are pressed in an orthogonal arrangement perpendicular to each other.

According to the present invention, since there is no need to incorporate a protective member such as a metal plate or reinforced plastic plate inside the material like the conventional sword suit, the activity is improved, light weight is possible to improve the wearing comfort, and can be used in various fields Possible effects can be achieved.

Sword suit, knife, awl, bamboo lance, protection, policy

Description

Sword Suit {PROTECT CLOTHING FOR STAB ATTACK}

The present invention relates to a sword suit, and more particularly, to a sword suit to protect the body from the penetration of sharp objects such as knives and awls.

In general, the body armor to protect the human body from firearms is composed of a shell, ballistic plate, and the outer shell, and bulletproof plate is a body armor to protect the body from the threat of enemy firearms in police or various security services.

These body armor has been actively developed in the United States, where the use of firearms is legal, and they are manufactured in accordance with the police body armor test standards of the US Department of Justice.

However, there is no special provision for the sword suit to protect the wearer's body from a weapon such as a sharp and sharp knife or awl, and has been manufactured in various forms according to the manufacturer.

In addition to the police and security services in recent years, such as industrial sites where the human body can be damaged by sharp objects, such as an engineer's crushing plant, and in cases where the user wants to be protected from threats caused by sharp objects such as bamboo spears in the field for demonstration suppression. The wearing of such a suit is mandatory, and the demand is increasing due to its utility.

However, in the case of the sword suit disclosed so far, only a partial improvement of the shape of the bulletproof suit is required, and a sword suit having a special function for the sword is required.

For example, as an example of the disclosed sword suit, an improvement of Kevlar (trade name of DuPont), an improvement of Twaron (trade name of Enka), impact absorption with high strength and heat resistance such as reinforcing fibers and felts The improvement of the body armor which is made of special material for this is mentioned.

However, these disclosed sword suits must have a built-in layer or multi-layered metal plate so that the awl or blade can not penetrate through, or have a high-strength plastic, which slows the movement when the wearer works while wearing it. The disadvantage is that the work efficiency is significantly reduced.

In addition, when the metal plate is built, the weight is heavy and heavy, thereby causing a fatigue increase rapidly for a long time wearing, there is a disadvantage that the productivity decreases because the work efficiency is sharply reduced.

The present invention was created in view of the above-mentioned problems in the prior art, and was created to solve this problem, as well as soldiers, police officers and bodyguards as well as workers working in a dangerous situation in the industrial field, such as knife, awl, bamboo shoot, The main challenge is to provide a protective suit that has been improved and lightened to improve the comfort of the tool, and further improves the convenience of activities.

The present invention provides a means for achieving the above object, in a sword suit worn to protect the body from the threat of sharp-edged objects such as knives, spears, bamboo spear; The sword suit is formed on the inner side of the wearing surface, the first layer of the aramid yarn woven into a network structure; A second layer stitched to the first layer and formed by being woven in a state where the metal wire is twisted to form a strand wire; It is formed by stitching the first layer and the second layer by sewing, a phenolic resin sheet, urea resin sheet, cross-linked latex sheet, epoxy resin sheet, a sheet having a hard solid layer embedded in a polyacrylate resin It provides a protective suit, characterized in that it comprises a third layer formed in a state in which at least two kinds of thin sheets selected from orthogonal to each other arranged crimped.

At this time, the aramid yarn constituting the first layer is characterized in that the 300 ~ 500nm SiO ₂ nanoparticles are impregnated.

The aramid yarn constituting the first layer is also characterized by being 0 dtex < linear density < 500 dtex and fabric density 0.95 or more.

Moreover, the strand wire which comprises the said 2nd layer has the characteristics also in which aluminum oxide or boron carbide was coat | covered.

In addition, the material for stitching the first, second and third layers is characterized in that the metal element wire.

In addition, the material for stitching the first, second and third layers is characterized in that the aramid yarn impregnated with SiO ₂ nanoparticles of 300 ~ 500nm.

According to the present invention, since there is no need to incorporate a protective member such as a metal plate or reinforced plastic plate inside the material like the conventional sword suit, the activity is improved, light weight is possible to improve the wearing comfort, and can be used in various fields Possible effects can be achieved.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

1 is an exemplary view showing the form of a vest as an example of the protective suit according to the invention, Figure 2 is a cross-sectional view showing a layered structure of the protective suit according to the invention, Figure 3 is a sword for a sword suit according to the invention and This graph shows policy test results.

The inspection suit according to the present invention can be produced in the form of the desired garment regardless of the top, bottom, which is possible by cutting the material to the required shape and sew.

In the case of Figure 1 shown to be an example of the implementation of the protective suit 100 according to the present invention, which illustrates the form of a vest to be worn on the surface.

The method according to the present invention was to impregnate the shear thickening fluid (STF: Shear Thickening Fluid) filled with nanoparticles to improve the anti-sword or policy properties.

Shear Thickening Fluid (STF) was conceived during the development of Liquid Body Armor.As a result of the rapid increase in viscosity when shear strain is applied due to external stimulation, the nanoparticles are solidified. Refers to a particle dispersion.

In particular, the present invention has been completed by focusing on the shear thickening phenomenon when the SiO ₂ particles are nanoparticles, it was noted that the most effective shear thickening phenomenon when the SiO ₂ particles 300 ~ 500nm.

According to the experiment, when the SiO ₂ particles were less than 300 nm, the inspection function by the awl or the knife was reduced, but a hole was formed. When the particle size exceeded 500 nm, the threshold was reached and the effect was no longer improved. It is reasonable to do

In this case, the SiO ₂ particles according to the present invention are provided in a form impregnated with a specific material which will be described later because it is not possible to produce a protective suit.

As shown in FIG. 2, the protective clothing 100 according to the present invention includes a first layer 110 and a second layer 120 and the second layer which are stitched on the upper surface of the first layer 110. The upper surface of 120 has a layered structure consisting of a third layer 130 stitched with a needle.

In this case, the first layer 110 is formed of aramid yarn woven fabric (Woven Fabric).

In particular, the first layer 110 should have a network structure, which ensures flexibility so that it is not easily broken from the penetration of sharp objects such as knives, awls or bamboo spears, and absorbs impact through elastic cushioning function. 100) to prevent puncture.

In this case, the aramid yarn should have a linear density of more than 0 dtex, less than 500 dtex, and the density of the woven fabric should be at least 0.95.

That is, the aramid yarn should satisfy the condition of 0 dtex <linear density <500 dtex, because when the linear density exceeds 500, the volume of the woven fabric becomes large, the flexibility decreases, and the inspection effect decreases rapidly, and the woven fabric is difficult to woven.

In addition, even in the case of the fabric density is less than 0.95 it is difficult to prevent the penetration of the knife, awl or bamboo spear, such as the gap between the gap between the penetration can be easily allowed to penetrate and should be limited to the above range.

In addition, the aramid yarn constituting the first layer 110 should be immersed in the impregnation liquid consisting of SiO ₂ particles of 300 ~ 500nm to maintain a state in which the SiO ₂ particles are sufficiently impregnated.

As described above, this is to induce a shear thickening phenomenon by the nanoparticles of SiO ₂ to flexibly block the final penetration of the window, gum through the aramid yarn.

The second layer 120 is formed by weaving a metal wire.

The metal wire is a stranded wire that is twisted in the form of strands, and unlike ordinary wires, the strands in the strands are twisted at different pitches for each layer so that the strands for each layer cross each other to form point contact. It has the advantage that the fluidity between floor wires is good, and the overall flexibility is sharply improved, and the partial disconnection and cutting resistance are rapidly improved.

At this time, the metal wire constituting the second layer 120 is twisted in the form of strands, and when using a metal wire coated with an abrasive material such as aluminum oxide or boron carbide, the inspection effect on the window and the sword Is even better.

On the other hand, the third layer 130 has a structure in which a resin made of a hard solid forms a multilayer in a sheet form.

In this case, the resin sheet forms a structure in which different kinds of sheets are stacked orthogonally, and preferably a hard solid embedded in a phenolic resin, a urea resin, a crosslinked latex, an epoxy resin, and a polyacrylate resin. The sheet which has a layer is mentioned.

At this time, it is more preferable that the aramid yarn described above is embedded in the sheet.

Thus, the first, second, and third layers 110, 120, and 130 are pressed and pressed, and then sewn into metal element wires in the horizontal and vertical directions, thereby manufacturing a protective suit 100 according to the present invention.

Of course, the first, second, and third layers 110, 120, and 130 are not limited to being sewn with metal wires, and more preferably, may be sewn with aramid yarns impregnated with the nanoparticles described above.

In addition, the wearing of the inspection suit 100 of the present invention is preferably such that the first layer 110 forms the inner side of the wearing surface, and the third layer 130 forms the outer side of the wearing surface.

In order to confirm the performance of the protective suit 100 according to the present invention, when impregnated with SiO ₂ particles, when impregnated with 100 nm particles, when impregnated with 300 nm particles, the impact load test according to the case impregnated with 500 nm.

In this case, the experiment was measured through a load cell (Load Cell) installed at the end of the awl.

As a result of the experiment, as shown in the graph of FIG. 3, when the 300 nm and 500 nm particles were impregnated, the degree of damage of the sword was small (almost none), and the damage of the sword was less than 300 nm, that is, when 100 nm or not was impregnated. .

As described above, the inspection suit 100 according to the present invention is significantly improved wearing comfort because it does not have to embed a member such as a separate metal piece or reinforced plastic piece in the material constituting the inspection suit for the purpose of inspection or policy, It does not interfere with the activity, so the activity is good and workability is improved.

In addition, the metal is processed in the form of wire, but it has a strand wire form, interposed between the sheet (second layer) and the network structure (first layer), but is sewn together to have a close connection with each other without flow. It is expected to be very good.

1 is an exemplary view showing a vest form as an example of a sword suit according to the present invention,

2 is a cross-sectional view showing a layered structure of the sword suit according to the present invention,

Figure 3 is a graph showing the results of the screening and policy test for the inspection suit according to the present invention.

♧ description of the symbols for the main parts of the drawing ♧

100 .... Bathsuit 110 .... 1st floor

120 ... the second floor 130 ... the third floor

Claims (6)

In a protective suit worn to protect the body from the threat of sharp-edged objects such as knives, spears or bamboo spears; The sword suit, A first layer formed inside the wearing surface, the first layer of which aramid yarns impregnated with SiO ₂ nanoparticles of 300 to 500 nm are woven to form a network structure; A second layer stitched to the first layer and formed by being woven in a state where the metal wire is twisted to form a strand wire; It is formed by stitching the first layer and the second layer by sewing, a phenolic resin sheet, urea resin sheet, cross-linked latex sheet, epoxy resin sheet, a sheet having a hard solid layer embedded in a polyacrylate resin The at least two kinds of thin sheets selected from among a batting suit comprising a third layer formed in a crimped arrangement arranged perpendicularly to each other. delete The method according to claim 1; Aramid yarn constituting the first layer is 0 dtex <line density <500 dtex, fabric density 0.95 or more, characterized in that. The method according to claim 1; The strand wire constituting the second layer is coated with aluminum oxide or boron carbide. The method according to claim 1; The material for stitching the first, second, third layers by stitching is metal wire. The method according to claim 1; The material for stitching the first, second and third layers is aramid yarn impregnated with SiO ₂ nanoparticles of 300 ~ 500nm.

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