KR200473910Y1 - Towing rope for target of marine-shooting-training - Google Patents

Abstract

This design is suitable for marine shooting training purposes and can reduce the breakage of the rope by the use of the projectile, which makes it possible to use it repeatedly, to prevent marine pollution, and to provide a cost-effective rope Wherein the target rope is divided into three parts of an extension part, an overpass part and a locking part along the extending direction, and the target part is connected to an end of the locking part, the extension part has a specific gravity smaller than that of sea water, And the diameter of the transitional portion gradually increases from the extended portion to the locked portion. [0027] According to an embodiment of the present invention, do.

Description

TOWING ROPE FOR TARGET OF MARINE-SHOOTING-TRAINING [0002]

The present invention relates to a rope that is an example of a marine shooting training target, and it relates to a technique capable of repeatedly using a target specific to the target in marine shooting training, while minimizing marine pollution while improving maneuverability.

In the Navy's near or medium range shooting training on marine targets, a heavy tank mounted on a ship is used, towing a target in the form of a marine vessel to a far offshore warship, and then recovering it after the shooting training .

Since the rope used for towing and recovering such a target may be piled and fired during shooting, in order to prevent the rope from being easily broken in a relatively mild projectile state, a certain range of the rope surface around the target is coated with an elastic resin, A method of hanging a weight on the rope was established so that a range of ropes centered on the target would be almost vertically submerged below sea level.

However, in a complex underwater environment in which reefs and the like are present, if the weight is added to the reefs, the towing or recovery work of the target may be delayed or troublesome, and the target may be washed away with the target due to the influx of currents in the water, And the like.

It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a , And to provide a tow rope that contributes to the prevention of marine pollution.

In order to achieve the above-mentioned object, the first design is a rope, which is an example of a marine shooting training target mounted on the sea, is divided into three parts of an extension part, an overpass part and a locking part along the extending direction, Wherein the extension is less than the specific gravity of the seawater, the transitional portion is equal to the specific gravity of the seawater, the locking portion is greater in specific gravity than the seawater, and the diameter of each of the three portions is locked to the extension portion Wherein the diameter of the transitional portion gradually increases from the extended portion toward the locked portion and is composed of a multi-structure of the inner and outer braids of the three portions, the surface of the outer braid is coated with an anti- And covering the outer outer braid with an elastic resin.

In the second aspect, each of the three portions includes an inner braid formed by combining strands of a plurality of strands, collecting the strands in a multiples of 4, and braiding the strands so that adjacent strands cross each other, The outer structure of the braid is formed of an outer braid formed by gathering at least one strand on the outer surface of the braid and braiding the adjacent tiers so that the total number of strands is a multiple of four.

In the third aspect, in the extension, both the inner and outer braids are made of polypropylene, wherein, in the transitional section, the inner braid is made of polypropylene and the outer braid is made of nylon, Wherein the outer braid is made of nylon and the weight of the outer braid is 30% to 50% of the weight of the inner braid when the weight ratio of the outer braid is 50% 10%, the weight ratio of the polyester is 20% to 40%, and the specific gravity to water is 1.10 to 1.19.

In the fourth aspect, in the extension, both the inner and outer braids are made of polypropylene, wherein, in the transitional section, the inner braid is made of polypropylene and the outer braid is made of nylon, A first inner braid made of polypropylene and a second inner braid made of polyester formed to surround the outer surface of the first inner braid and having an outer braid formed to surround the outer surface of the second inner braid Wherein the weight of the first inner braid is 30% to 10%, the weight of the second inner braid is 20%, and the weight of the first inner braid is 20% To 40%, and the specific gravity to water is 1.10 to 1.19.

According to the first aspect of the invention, the towing rope has an extension portion which occupies most of its extension length, a locking portion directly connected to the target and immersed in water by its specific gravity, and a transitional portion between the extension portion and the locking portion Since the elongated part is formed by dividing into three parts, the extension part is light in weight and thin in diameter, it is easy to rewind because of low cost of material, which helps to improve maneuverability. Since the locked part has a large specific gravity and a great diameter, And it is easy to install the target because additional weight is not needed because it sinks into the water by itself. Also, even if shooting training is performed in an area where the sea bottom is complicated such as a reef, even if rope or weight is added, And it is possible to prevent the loss of the environment such as marine pollution accompanying the shooting training One possible can be reduced.

The diameter of the transitional portion between the extended portion and the locked portion is gradually increased toward the locked portion. For example, when the extended portion is directly connected to the locked portion, the locking portion prevents the deterioration of durability It is pulled slowly by the department and is wound down underwater. Thus, if the bullet is below the target and landing on the sea surface, the risk of the rope being piled is greatly reduced.

According to the second to the fourth inventions, the three portions of the extension portion, the transitional portion, and the locking portion are all of a multi-structure in which the outer braid surrounds the inner braid, Polyester or nylon is added to the excess part and the locking part to control the specific gravity. However, these fibers are excellent in functionality and expensive, but they are only partially added, and the cost of material Can be greatly suppressed.

In addition, the locking part adjusts the weight between layers to adjust the weight of the locking part to be in the range of 1.10 to 1.19, so that the locking part floats near the water surface due to the influence of currents or waves, or vice versa, So that the convenience of the shooting training operation can be improved by allowing the target to be installed and to be recovered or lifted after the shooting smoothly.

Fig. 1 is a state diagram showing an extended aspect of a tow rope in a marine shooting training.
Fig. 2 is a side view showing each squeeze shape in an extension part, a transitional part and a locking part constituting a towing rope according to the present invention. Fig.
FIG. 3 is a cross-sectional view illustrating a locking part constituting a multi-layered structure of a towed rope according to the present invention.
FIG. 4 is a cross-sectional view illustrating a locking part constituting a double layer structure of a tow rope according to the present invention. FIG.

Preferred embodiments of the present invention will be described in detail with reference to the drawings.

Fig. 1 is an explanatory diagram showing an extended state of the towing rope 1 in an offshore shooting training. Fig. 2 is an explanatory view showing an extension part (a), transitional parts (b) and And a side view showing each squeezed portion in the locked portion (c).

The length ratio of the extended portion (a) to the overturned portion (b) to the locked portion (c) is approximately 1400: 50: 50 when the total extending length of the towing rope 1 according to the present invention is 1500 m desirable. In the case of shooting with the naked eye, when the total length of the gun is shortened, the accuracy of landing on the target 3 is increased, and when the total length of the gun is increased, the landing accuracy is somewhat reduced. desirable.

2, the diameter of the extended portion (a), the overturned portion (b), and the locked portion (c) changes in the relationship of the extended portion, the overturned portion and the locked portion, The diameter of the transition portion (a) gradually increases from the extended portion (a) to the locked portion (c). When the extended portion (a) , And the locked portion (c) becomes 150% to 170%.

The extension portion (a), which occupies more than 93% of the total extension length of the towing rope (1), is wrapped around the bobbin when the target (3) is towed to the marine shooting training station, and the target (3) When a trap (2) with a firearm is moved to the shooting position, it is released into the sea. Then, when the traps 2 are moved toward the target for reloading evaluation after the end of the shooting training, the rewinds are rewound so that only the overturned portion (b), the locked portion (c), or the locked portion And the towing operation is performed.

Each of the extension part (a), the transitional part (b), and the locking part (c) has a multiple structure of the inner and outer braids (10, 30). However, in the above three portions, the combinations of the materials used for the inner braid 10 and the outer braid 30 are different from each other.

First, in the case of the extension part (a), both the inner and outer braids 10 and 30 are made of polypropylene. In the case of the extension part b, the inner braid 10 is made of polypropylene, (30) is made of nylon. In the case of the locking part (c), the inner braid (10) is made of polypropylene and polyester mixed or combined, and the outer braid (30) is made of nylon.

Generally, polypropylene is inexpensive, has relatively high water resistance, has a specific gravity to water of less than 1, and is lower than the specific gravity of seawater (1.02), so it floats in water. Also, as shown in Table 1 below, the larger the diameter of the polypropylene, the greater the tensile strength increases.

Mechanical properties of polypropylene Diameter (mm) Tensile strength (kN) Tensile Strength (kgf) 3 1.07 110 6 3.72 380 9 7.94 810 12 14.12 1440 16 24.22 2470 20 36.57 3730

The inner braid 10 is formed by making strands of a plurality of strands of yarn and then bundling the strands in a multiples of four to braze the strands so that neighboring strands cross each other. In one embodiment of the present invention, Gather.

On the other hand, in the embodiment of the present invention, the outer braid 30 is made to gather more than one strand. In the embodiment of the present invention, the two strands are braided so that the adjacent strands cross each other, So that a total of 32 strands are formed.

The outer braid 30 of the transitional portion b and the locking portion c is mainly made of nylon. The outer blade 30 exposed to the outside is formed of nylon which is very strong in friction and has a specific gravity larger than that of seawater , The predetermined durability required for the towing rope 1 is secured.

In addition, if the period of being left in the water is long, the marine organisms may reproduce on the outer braid 30 and may be removed. In this case, the surface of the outer braid 30 may be coated with an anti- As such marine organism adhesion preventive agents, methylene bistiocyanate, dibutyltin dilaurate, manganese ethylene dithiocarbamate, zinc ethylenebisdithiocarbamate, tetramethyltram monosulfide, and tetramethyltramadisulfide can be applied have.

In order to more positively cope with the fracture by the projections in the locking part (c), it is preferable to cover the outer braid (30) of the locking part (c) with an elastic resin.

On the other hand, the locking portion (c) has a double structure in which the inner braid (10) in which polypropylene and polyester are mixed is placed in an outer braid (30) made of nylon as described above, The degree of locking can be controlled by appropriately controlling the mixing ratio of the polypropylene having a specific gravity smaller than that of sea water and the polyester having a specific gravity larger than that of seawater.

 In a preferred embodiment of the present invention, the locking portion (c) has a weight composition ratio of the polypropylene of 30% to 30% of the inner braid (10) when the weight ratio of the outer braid (30) 10% by weight, the weight ratio of the polyester to 20% to 40%, that is, the weight ratio of the polyester to the weight of the polypropylene is greater than that of the polypropylene, do.

In the actual process, when adjusting the weight constituent parts of the inner braid 10 and the outer braid 30, the final specific gravity of the locking part c can be adjusted using the following equation (1).

[Formula 1]

Here, T _total is the total weight of the inner blade 10 and outer blade (30), ρ is the specific gravity to obtain, T ₁₀ is the weight of the inner blade (10), ρ _10, is inside the braid (10) T ₃₀ is the weight of the outer braid 30, and rho ₃₀ is the specific gravity of the inner braid 30.

On the other hand, in another preferred embodiment of the present invention, as shown in Fig. 4 showing a cross-sectional view of the locking part constituting the double layer structure of the towing rope 1, the locking part c is made of a polypropylene- 1 inner braid 10 is surrounded by a second inner braid 20 made of polyester and then an outer braid 30 made of nylon is surrounded by the inner braid 10, The inner braid 10 is formed by gathering the strands in a multiple of 4 and braiding the adjacent individual strands so that they cross each other. The second inner braid 20 and the outer braid 30 are formed by gathering the strands into two strands And each of the strands is formed so that the total number of strands thereof is a multiple of 4. The second inner braid 20 is braided to a total of 24 strands, DE 30 is Ding breaker with a total of 32 strands.

In this embodiment, when braiding with 24 strands, the bobbin for the second inner braid 20 is replaced with a thick strand in 2m increments based on the rope length. When the strand is braided with 32 strands, The bobbin for the outer braid 30 is replaced by a thick stator in a unit of 1.5 m.

In addition, the locking portion (c) may have a weight composition ratio of 30% to 10% of the first inner braid (10), assuming that the weight composition ratio of the outer braid (30) (20) is 20% to 40%, and the specific gravity of the locking part (c) is 1.10 to 1.19. In this case, the weight and specific gravity of the first inner braid 10, the second inner braid 20 and the outer braid 30 may be substituted into the denominator to calculate the specific gravity of the whole.

1: Tow rope
2: Ship
3: target
10: inner braid or first inner braid
20: second inner blade
30: outer braid
a: Extension
b: transient
c: Locked part

Claims (4)

A rope that is an example of a marine shooting training target mounted on the sea, the rope being divided into three parts along an extension direction: an extension part, an overpass part, and a locking part, and the target is connected to the end of the locking part, Wherein the transient portion has the same specific gravity as the seawater, the locked portion has a larger specific gravity than the seawater,
The diameter of each of the three portions is defined as an extended portion and the diameter of the transitional portion gradually increases from the extended portion toward the locked portion,
And a plurality of inner braids and outer braids of the three portions,
A surface of the outer braid is coated with a marine biological adhesion preventive agent,
Characterized in that the outer braid of the locking part is coated with an elastic resin. [2] The method of claim 1, wherein each of the three portions comprises: an inner blade formed by stranding a plurality of strands of yarn, gathering the strands in a multiple of 4 and braiding each of the adjacent strands so as to cross each other; And an outer braid formed on the outer surface of the inner braid in such a manner that one strand or more strands are gathered together and the adjacent strands are crossed to each other so that the total number of strands is a multiple of 4. [ A rope that is an example of a marine shooting training target. 3. The connector of claim 2, wherein, in the extension, both the inner and outer braids are made of polypropylene, wherein in the transitional section, the inner braid is made of polypropylene and the outer braid is made of nylon, The braid is a mixed strand of polypropylene and polyester, the outer braid is made of nylon,
Wherein the locking portion has a weight composition ratio of polypropylene of 30% to 10% and a weight composition ratio of polyester of 20% to 40% among the inner braids, when the weight composition ratio of the outer braid is 50% And the specific gravity of the water is 1.10 to 1.19. 3. The connector of claim 2, wherein, in the extension, both the inner and outer braids are made of polypropylene, wherein in the transitional section, the inner braid is made of polypropylene and the outer braid is made of nylon, The braid comprises a first inner braid made of polypropylene and a second inner braid made of polyester formed to surround the outer surface of the first inner braid and having an outer surface formed to surround the outer surface of the second inner braid The braid is made of nylon,
Wherein the locking portion has a weight composition ratio of 30% to 10% and a weight composition ratio of 20% to 40% of the first inner braid and the second inner braid, respectively, when the weight ratio of the outer braid is 50% And the specific gravity of the water is 1.10 to 1.19.

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