KR20010099019A - a groove scoop metal beads of flinder in missile - Google Patents

Abstract

The invention is designed for fighters, missiles, bombers, helicopters, ground combat equipment, and major facilities.

It is about intercepting and destroying

Explode and scatter a large amount of (8) grooved metal beads at a certain angle

Not just one (for example, current guided missiles or other weapons

Destroy a single target, using a spread bomb to hit the ground

It can destroy fighters, bombers, and facilities.

The invention is made of (1) transparent reinforced plastic, (2) CCD and laser range finder

(3) I / O processors, (4) batteries, (5) decomposition parts, (7) electric primers

(8) metal beads with grooves, (9) electric primers, (11) heat and shock absorbers

If you use this missile, like a golf ball (8)

By using farther and more accurately, you can fly to the target and destroy

Therefore, the biggest feature of this invention is (8) the use of metal bead

This is characterized by a greater blow to the target.

And the outside is made of ultra-high-purity silicon fiber.

Can withstand high temperatures

Description

A groove scoop metal beads of flinder in missile}

The present invention (2) CCD and laser range finder (8) targets using grooved metal beads, etc.

It is about missiles that can be effectively destroyed. Existing missiles can only be destroyed when they shoot down fighters, bombers, etc., so that if the missile misses the target, it is a big loss. Used in the ground

In the case of a multi-stage bomber, a large number of guns must be fired intensively to suppress the area.

Some Korean warheads also use warheads containing 16000 steel beads in molding debris, but when the warheads explode, fragments of steel beads are concentrated on the target.

Rather than flying, fragments fly irregularly from side to side, causing a large amount of shells to burst.

You won't see a big effect unless you launch a lot of rockets.

It is a big waste.

And in Russia, we use intelligent proximity fuses to self-destruct at

There is a missile, but it generates a certain radio wave that explodes when it reaches a certain distance.

Proximity fuses can explode warheads by absorbing or disturbing radio waves from proximity fuses.

There may be problems that can be prevented.

The present invention to solve the above problems (2) CCD and laser range finder

And (8) using grooved metal beads to effectively price the target.

Spread debris at precise and constant angles over a wide area

You can price it.

And when the CCD detects the target by eliminating the problem of the proximity fuse, the laser range finder

Continually measuring the distance of the target (3)

Continue updating the calculations to price at the optimized distance.

(8) The biggest reason for using grooved metal beads is to rotate in the opposite direction of the blow.

This is because it prevents metal beads from bouncing from side to side and flies away in a straight direction.

1 is a cross-sectional view

Figure 2 is a cross-sectional view of the top view except 1-5

Figure 3 is an expanded plan view except for 1-5

4 is a cross-sectional view of the expanded front view;

5 is a sectional view and a plan view of the front view

<Name of main part of drawing>

1: Transparent reinforced plastic 2: CCD and laser range finder 3: Data input / output processor

4: Battery and power control unit 5: Disassembled part (No. 1 ~ 4) 6: Empty space 7: Electric primer

8: metal bead with groove 9: electric primer 10: void 11: heat and shock absorbing plate

12: Clip and clip protective film 13: Guide (in the direction of A by the explosion of # 20 electric primer

14) Shock absorbing plate 15: Metal pin 16: Pin insertion hole 17: (No. 9.20)

Electric primer power supply and data processor 18: Explosion 19: connecting film 20: electrical primer

21: outer shell of the warhead 22: shock detection sensor

(Major name of Fig. 5)

1: Transparent reinforced plastic 2: CCD and laser range finder 3: Slotted metal beads

4: inner film 5: outer film 6: explosive 7: thick inner film 8: electric primer

9: Data I / O 10: Missile Propulsion Unit

Description of the accompanying drawings is as follows.

1 shows (1) transparent reinforced plastic, (2) CCD and laser range finder (3) data input / output processor

(2) The CCD and laser range finder

Measure and track the speed and distance of the target (detected by the CCD).

Close (50-100M), (3) the data I / O processor recognizes this and

(7) When the electric primer bursts, the connecting film of (19) is separated and opens in the E direction.

(At this time, the electric primer 7 is broken down with parts 1-5, and parts 1-5 are built in.

(11) High-temperature and shock-absorbing plates are expelled due to explosion of electric primer

The electric primer of (20) moves the guide of (13) while opening at an angle of 90 degrees in both E directions.

Pushed inward and B and C are disassembled from each other and unfolded as shown in Fig. 4 (22), when the impact sensor sensor contacts the sensor on the opposite side, the signal is (17) 9.20 electric primer power supply and data processor. Delivered to and the electrical primer of (9) exploded

(8) Fly the metal bead with a groove at a certain angle and fly to the target.

In the case of Fig. 5, the input and output missiles calculate and fly the data sent from the CCD and the laser range finder by themselves, and then explode after the first one or two parts fall off, and the warhead explodes to concentrate fragments toward the target. Sprinkle.

It can effectively suppress flying targets (fighters, bombers, missiles, aircraft carriers, etc.), in particular, it can effectively shoot down missiles and fighters,

If you make this and put it into practical use, you can reduce your defense budget and obtain foreign currency.

And if you downsize this and make it a portable missile, the helicopter

It can have a great effect on fighters and armored vehicles.

In the case of FIG. 5, targets in a narrower area are destroyed. For example, it is effective for a slow moving object such as a tank, an armored vehicle, a helicopter, and the like. FIGS. 1 to 4 show more fragments than those in FIG. For example, dozens of flying missiles, warships, aircraft carriers

Effective for destroying airplanes, etc.

Claims (7)

Using a CCD and a laser rangefinder, this missile Automatically explode at close range (approximately 50-150M) The groove of the lower part and the upper part of the claim 1 is deeper than the center of the golf ball. How to use fragments of metal beads In paragraph 1.2 When this missile is fired while on board a fighter (3) The processor uses the laser range finder to target input from a fighter aircraft equipped with this missile. The initial distance is measured and the CCD continues to track the target and sends it to the data I / O processor for updating, changing the information and proceeding to the input target. Not exploding other than the input target In paragraph 1.2.3, when the propulsion unit runs out of fuel, even if it is remote to the target, How to self-destruct toward a target The method of paragraph 1.2.3.4, which can be miniaturized and made into a human transportable missile for use in the field. In accordance with 1.2.3.4.5, the entire missile, i.e. all the warheads and propulsion units, is How How to insert a metal bead like a golf ball in the head of the warhead head like Figure 5