KR200449609Y1 - reinforcing arrow for turning force - Google Patents

Abstract

The present invention relates to an arrow for reinforcement of rotational force that allows rotation to be added in flight to overcome air resistance by rotational force, thereby improving accuracy and range reduction due to air resistance.

Arrow (A) for reinforcing torque by the present invention,

Insertion grooves 32 are formed in the center of the other end opposite the one end where the demonstration seating grooves 31 are formed at the rear end of the arrow 10, and the air discharge hole 33 penetrating the rear around the insertion groove 32 is provided. The formed knife 30 is combined,

An insertion groove 22 is formed at the center of the other end opposite to the tip of the cone shape at the front end of the arrow 10, and an air inlet hole 21 penetrating the rear is formed at the front circumference, and the middle portion of the entire length is separated. Arrowheads 20 in a possible form are combined,

One or more rotary blades, one end of which is fitted into the insertion groove 32 of the nib 30, the other end of which is fitted into the insertion groove 22 of the arrowhead 20, and the spiral twist is continuous on the outer circumferential surface ( 41) is characterized in that the core 40 of the rod or tube shape is attached.

Arrow, arrowhead, arrowhead, arrowhead, rotational force, heartwood, rotor blade, directionality, range, air resistance, insertion groove, air inlet, air vent, spiral twist

Description

Reinforcing arrow for turning force}

The present invention relates to an arrow, and more specifically, to the arrow for reinforcement of torque to improve the accuracy and range reduction caused by air resistance by adding rotation in flight to overcome the air resistance by the rotational force. It is about.

In the past, archery has been used as a means of hunting or combat, but now archery has become a sport or leisure sport and the number of people enjoying it is increasing.

On the other hand, since the arrow is flying by the reaction of the bow demonstrations are made in a form suitable for flight, the general arrow is a tubular shaft of a certain length, the arrowhead is coupled to the front end of the shaft, the tip is sharpened, the shaft It is generally made of a groove formed with a seating groove that is coupled to one end of the rear so that protest can be taken.

In such a conventional arrow, the arrowhead is radially attached to the outer circumferential surface of the rear to impart straightness to the flying arrow.

However, the conventional arrows have a problem that the accuracy is lowered, because the air resistance is received in the flight process even if the straightness by the feather, and the range has been reduced.

For this reason, the industry has been trying to develop arrows that can improve accuracy and decrease the range, but only the standardization and material changes of the shaft, but still does not achieve satisfactory results.

The present invention has been devised in view of the above situation, the rotation is added in the flight process to overcome the air resistance by the rotational force to improve the rotational force to improve the accuracy and range reduction due to air resistance The purpose is to provide an arrow.

Arrow for reinforcing torque according to the present invention for achieving the above object,

Insertion grooves are formed in the center of the other end opposite the one end formed with the protest seating groove formed at the rear end of the shaft, and the union formed with the air discharge hole penetrating the rear around the insertion groove,

An insertion groove is formed at the center of the other end opposite to the cone-shaped tip at the front end of the shaft, and an air inlet hole penetrating the rear is formed at the front circumference, and the arrowhead of the middle portion of the full length is detachable is combined.

One end is inserted into the insertion groove of the arrowhead, the other end is inserted into the insertion groove of the arrowhead, the rod or tube-shaped core material is attached to the outer peripheral surface is attached to one or more rotary blades are continuous spiral twist will be.

The arrow for reinforcing the rotational force according to the present invention, the air introduced through the air inlet hole formed in the arrowhead in the flight process is discharged through the air discharge hole formed in the barrel through the spiral rotating wing of the core material provided inside the arrow shaft Since the shaft itself is rotated during the bar, it is possible to overcome the air resistance by increasing the rotational force, thereby improving the accuracy and range reduction caused by the air resistance.

Hereinafter, with reference to the accompanying drawings in more detail as follows.

1 is an exploded perspective view for explaining the entire structure of the arrow for reinforcing torque according to the present invention, Figure 2 is a cross-sectional view of the coupling state for explaining the overall structure of the arrow for reinforcing torque according to the present invention, Figure 3 Partial enlarged cross-sectional view for explaining the structure of the arrowhead in the arrow for reinforcement of the rotational force according to the present invention, Figure 4 is a partial enlarged cross-sectional view for explaining the structure of the stem in the arrow for reinforcement of the rotational force according to the present invention, Figure 5 It is a cross-sectional view of the coupling state showing another form of the core in the arrow for reinforcement of rotational force by the present invention.

As shown in Figures 1 and 2, the arrow for the rotational force reinforcement according to the present invention consists of an arrow 10, an arrowhead 20, a lobe 30, and a core 40.

The shaft 10 is in the form of a tube, the feather 11 is attached to the back.

Such a shaft 10 may be made of any material as long as the shaft 10 is made of a common arrow length and diameter.

The arrowhead 20 is coupled to the front end of the arrowhead 10, as shown in Figure 3 is formed with the air inlet hole 11 penetrating the rear around the front center of the front end of the conical shape, facing the tip Insertion groove 22 is formed in the center of the other end.

In the arrowhead 20, the air inlet hole 21 is preferably formed radially so as not to be biased on any one side.

At this time, the arrowhead 20 is preferably made of a form that can be separated from the middle portion of the full length.

In the present invention, the female screw 20a is formed on the front body 20 'constituting the arrowhead 20 to form a removable portion of the arrowhead 20, and the male screw 20b is formed on the rear body 20 ". By doing so, the separation or coupling of the middle portion of the arrowhead 20 can be made freely through the separation or coupling of the female screw 20a and the male screw 20b.

The omni 30 is coupled to the rear end of the shaft 10, the insertion groove 32 is formed in the center of the other end opposite to one end formed with the demonstration seating groove 31 as shown in Figure 4, The air discharge hole 33 penetrating the rear around the groove 32 is formed.

The air discharge hole 33 in the sliver 30 is preferably formed radially so as not to be biased to any one side.

The core 40 is located inside the shaft 10, and as shown in Fig. 2 or 5 in the form of a rod or tube, one or more rotary blades 41 are spiral twisted to the outer peripheral surface is continuous It is attached.

The core 40 has one front end inserted into the insertion groove 22 of the arrowhead 20, and one rear end of the core member 40 is fitted into the insertion groove 32 of the stem 30 and fixed to the inside of the arrow 10.

Referring to the rotation process of the arrow (A) for reinforcing the rotational force according to the present invention as described above are as follows.

Protesting in the protest seating groove 31 of the Oeun 30 When the arrow (A) is fired by using the protest force, the flight of the arrow (A) is started.

Since the air inlet hole 21 penetrating the rear is formed radially around the front center of the arrowhead 20 in the state in which the arrow A is flying, the air introduced through the air inlet hole 21 is the arrow 10. ) Will pass through.

At this time, inside the shaft 10 is fixed to the core material 40 is attached to the rotary blade 41 in the longitudinal direction, the air passing through the inside of the arrow 10 is the rotary blade 41 of the core material 40 It comes in contact with.

Here, the rotary blade 41 of the core 40 has a continuous spiral twist, the rotation of the shaft 10 can be made by the air flow passing through the spiral twist of the rotary blade 41.

Rotation of the shaft 10 made of the above process is made continuously in the arrow (A) flight process, through the air force by the rotational force of the arrow (A) added to the rotation in the flight process can overcome the air resistance As well as ensuring maximum range from protest repulsion, it is possible to precisely aim at the aimed aim at the first place, thereby increasing accuracy.

In the rotation process of the arrow (A) through the air inlet hole 21 of the arrowhead 20 is introduced into the inside of the arrow, the air passing through the rotary blade 41 of the core material 40 is discharged air formed in the stem 40 Since the ball 33 is discharged to the outside of the shaft immediately, the accuracy reduction and the range reduction due to the air resistance inside the shaft 10 are only a small level, and thus have a significant influence on the range and accuracy improvement effect achieved by reinforcing torque. It will not go crazy.

On the other hand, when the arrow (A) is completed flight is stuck in the target, the foreign material such as soil may be caught in the air inlet hole 21 of the arrowhead 20.

At this time, the arrow (A) for reinforcing the rotational force according to the present invention is that the arrowhead 20, the middle portion is in a form that can be separated, by separating the middle portion of the arrowhead 20 in the state in which foreign matter is caught in the air inlet 21 By cleaning, foreign matter caught in the air inlet 21 can be easily removed.

The removal of foreign matter in the air inlet 21 by separating the middle portion of the arrowhead 20 as described above is performed in a state in which smooth air inflow through the air inlet 21 cannot be expected, but it does not need to be performed every time after the flight. to be.

The present invention as described above is not limited to the above-described embodiment and can be changed within the scope without departing from the spirit of the present invention claimed in the claims, such changes are within the claims described.

1 is an exploded perspective view for explaining the entire structure of the arrow for reinforcing torque according to the present invention

2 is a cross-sectional view of the coupling state for explaining the entire structure of the arrow for reinforcing torque according to the present invention

Figure 3 is a partially enlarged cross-sectional view for explaining the structure of the arrowhead in the arrow for reinforcement of rotational force according to the present invention

Figure 4 is a partially enlarged cross-sectional view for explaining the structure of the stem in the arrow for reinforcement of rotational force according to the present invention

Figure 5 is a cross-sectional view showing a combined state of the core in the arrow for reinforcement of rotational force according to the present invention

<Explanation of symbols for the main parts of the drawings>

10: arrowhead 11: feather

20: arrowhead 20 ': front body

20 ": Rear Body 20a: Female Thread

20b: Male thread 21: Air inlet hole

22: insertion groove 30: Ouni

31: demonstration seating groove 32: insertion groove

33: air discharge hole 40: heartwood

41: rotor blade A: arrow

Claims (2)

Insertion grooves are formed in the center of the other end opposite the one end formed with the protest seating groove formed at the rear end of the shaft, and the union formed with the air discharge hole penetrating the rear around the insertion groove, An insertion groove is formed at the center of the other end opposite to the cone-shaped tip at the front end of the shaft, and an air inlet hole penetrating the rear is formed at the front circumference, and the arrowhead of the middle portion of the full length is detachable is combined. One end is inserted into the insertion groove of the arrowhead, the other end is inserted into the insertion groove of the arrowhead, the rod or tube-shaped core material is attached to the outer peripheral surface is attached to one or more rotary blades are continuous spiral twist Arrows to reinforce torque. The method according to claim 1, The arrowhead is an arrow for reinforcing torque, characterized in that the female screw is formed on the front body, the male screw is formed on the rear body to form a removable middle portion through the separation of the female screw and the male screw.

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