DE19819351A1 - High voltage-generating projectile - Google Patents

Abstract

In the high voltage-generating projectile a Piezocrystal with a glued-on anvil (5) is found in the projectile body (1) glued in behind the projectile cap (2) in the Piezocrystal housing (4) with electrodes. The front end of the guide rod (7) is supported in the opening of the anvil and around the guide rod a striking piece point(6) and striking piece (8) rely on one or more shearing cams (7.1) . The projectile body is rigid and detachable with projectile cap. Piezocrystal housings in the projectile hollow chamber are found with the electrode.

Description

The invention falls within the range of large-caliber projectiles for the Fighting civil unrest for the police and military.

The technical problems that are solved with this invention are creating a flat trajectory while reducing the weight of the projectile. The the reduced holding force of the projectile is reduced by the High voltage generation and discharge canceled on impact.

This eliminates the risk that steel cores in rubber bullets when Striking sensitive parts of the body can cause serious injuries. Development of large caliber bullets for the police The fight against unrest began with the exchange of lead shot Police ammunition with rubber bullets on when it hits the eye socket led to eye injuries. In the case of beacon ammunition, lathes were turned Soft wood bullets were used, the result was broken bones. At 1.5 " Beacon guns were mixed with plastic bags Plasticine used, without risk of injury, but with the disadvantage a very short range and poor accuracy. For the military unrest were rubber bullets with steel cores, or steel balls developed when hitting sensitive body parts but can cause serious injury, even death.

The projectile should not cause any injuries when it hits it cause, nevertheless it should cause a pain that is strong enough that who is prevented from participating in riots. The Projectile should hit its entire kinetic when hitting an obstacle  Release energy as large as possible. Are for this task Soft bullets ideal, which unfortunately are very difficult to fly are stabilized and have a large cross-section due to the task, which creates the new disadvantage that the speed by the Air resistance is reduced. Small weight, higher speed, stretched trajectory, smaller energy output or greater weight, poorer accuracy, greater risk of injury.

This solution is intended to eliminate the risk of injury resulting in death be made by the projectile using the piezo effect smaller weight requires that an elongated trajectory be larger Marksmanship realized and that the bullet when it hits it all emits kinetic energy, part of it for electrical High voltage generation and discharge is used. It will be in short Time intervals due to mechanical and electrical effects pain generate, which must be large enough to the physically and To prevent mentally from further activities.

This solution is described in three variants, the first being the Most affordable. In an aerodynamically elastic projectile body There is a piezo component with rubber or plastic embedded piezo crystal in a brass case with electrode on the Top. The steel anvil plate is open on the underside of the piezo crystal glued, the opening in the middle for receiving the guide rod Plastic has. There are four shears in the middle around the guide rod cams on which the steel hammer tip rests and at the same time holds the lead hammer in its rear position. The whole thing is done with the Covered floor cap and thus protected from moisture and dirt.

The second variant consists of an aerodynamically elastic Projectile body. In it there is a piezo component with the embedded piezo crystal in a brass case with the electrode. On The steel anvil plate is glued to the underside of the piezocrust the middle has an opening for receiving the plastic guide rod, at the end of which the striking piece is located. The striking piece is a with Lead-filled steel body, which is set by a steel spring in the rear position is revered. The whole thing comes with the bullet cap with screw cap secured and thus protected from moisture and dirt. These bullets can be collected and used again.  

The third variant consists of an elastic bullet body. In there is a piezo component with the embedded piezo crystal in a brass case with the electrode, covered with a movable one Bullet cap. At the bottom of the piezo crystal is the steel anvil plate glued, in this extension is the movable Striking mechanism as a unit. These bullets can be collected and be used again.

The first variant has an aerodynamically elastic projectile body ( 1 ) in that the piezo component with the embedded piezo crystal ( 3 ) is in a brass housing ( 4 ) with an electrode ( 4.1 ) at the tip. The anvil plate ( 5 ) is glued to the underside of the piezo crystal ( 3 ) and has an opening in the middle for receiving the guide rod ( 7 ) made of plastic. In the middle around the guide rod ( 7 ) there are four shear cams ( 7.1 ) on which the steel striker tip ( 6 ) is supported and at the same time holds the striker ( 8 ) in its rear position. The whole is covered with the bullet cap ( 2 ). When the projectile hits the target, the impact tip ( 6 ) shears off the shear cams ( 7.1 ) on the guide rod ( 7 ) and strikes the anvil plate ( 5 ), causing the piezo crystal ( 3 ) to vibrate, and thereby The voltage generated is picked up by the piezo crystal housing ( 4 ) and passed on to the target via the electrode ( 4.1 ). The guide rod must be replaced to reuse the bullet.

The second variant consists of a projectile body ( 1 ) in which there is a piezo component with the embedded piezo crystal ( 3 ) in a brass housing ( 4 ) with an electrode ( 4.1 ) at the tip. The anvil plate ( 5 ) is glued to the underside of the piezo crystal ( 3 ) and has an opening in the middle for receiving the guide rod ( 7 ), at the end of which the striker ( 8 ) is held by the spring ( 9 ). The whole thing is secured with the bullet cap ( 2 ) with screw cap, and thus protected from moisture and dirt. When the projectile hits the target, the spring ( 9 ) is compressed by the internal forces, the striking piece ( 6 ) guided by the guide rod ( 7 ), struck on the anvil plate ( 5 ), the piezo crystal ( 3 ) vibrated, and the resultant generated Voltage picked up by the piezo crystal housing ( 4 ) and passed on to the target via the electrode ( 4.1 ). These bullets can be collected and used again.

The third variant consists of a projectile body ( 1 ), in which there is a piezo component with the embedded piezo crystal ( 3 ) in a brass housing ( 4 ), with the electrode ( 4.1 ) at the tip, covered with the movable projectile cap ( 2 ) . At the bottom of the piezoelectric crystal (3), the anvil plate (5) is glued on. The movable striking mechanism is located in this extension as a unit with the striking piece ( 8 ). When the bullet strikes the target, the movable bullet cap ( 2 ) with the piezo component is pressed into the bullet body ( 1 ) by the internal forces, the piezo crystal ( 3 ) vibrates, and the voltage generated thereby is absorbed by the piezo crystal housing ( 4 ) and over the electrode ( 4.1 ) passed on to the target. These bullets can be collected and used again.

The figures show:

Fig. 1 shows the longitudinal section of the high-voltage generating projectile

Fig. 2 shows the projectile body and projectile cap in several views

Fig. 3 shows all parts of the high-voltage generating projectile in one or more views

Fig. 4 shows a longitudinal section of the second variant of the high voltage generating projectile

Fig. 5 shows the projectile body and projectile cap with threads and all parts of the high-voltage generating projectile in one or more views

Fig. 6 shows a longitudinal section of the third variant of the projectile with a movable projectile cap in the basic position

Fig. 7 shows a longitudinal section of the third variant of the projectile with the movable projectile cap pressed in

Reference list

1

Projectile body

2nd

Bullet cap

3rd

Piezo crystal

4th

Piezo crystal housing

4.1

electrode

5

Anvil plate

6

Percussion tip

7

Guide rod

7.1

Cams

8th

Percussion

9

feather

9.1

Impact spring

Claims (6)

1. High voltage generating projectile is characterized in that in the projectile body ( 1 ) behind the projectile cap ( 2 ) glued in the piezo crystal housing ( 4 ) with electrode ( 4.1 ) there is piezo crystal ( 3 ) with glued on anvil ( 5 ), characterized in that the front end of the guide rod (7) is mounted in the opening of the anvil (5) and are based around the guide rod (7) firing pin tip (6) and striker (8) on one or more shear cam (7.1). 2. High-voltage projectile according to claim 1, characterized in that the projectile body ( 1 ) is firmly and releasably connected to the projectile cap ( 2 ), characterized in that in the projectile cavity there is a piezo crystal housing ( 4 ) with the electrode ( 4.1 ), characterized in that Piezo crystal ( 3 ) is glued into the piezo crystal housing ( 4 ) and anvil ( 5 ) is glued to its rear end, characterized in that the front end of the guide rod ( 7 ) is mounted in the opening of the anvil ( 5 ) and the impact piece ( 5 ) 8 ) supported by spring ( 9 ). 3. High-voltage generating projectile according to claim 1 and 2, characterized in that in the projectile body ( 1 ) behind a movable projectile cap ( 2 ) piezo crystal housing ( 4 ) and electrode ( 4.1 ) with bonded piezo crystal ( 3 ) and glued on anvil ( 5 ) on it rear end, characterized in that the striking piece ( 8 ) with the striking spring ( 9.1 ) is located behind the spring ( 9 ). 4. High-voltage generating projectile according to claims 1 to 3, characterized in that the hammer tip ( 6 ) made of steel and hammer ( 8 ) are made of lead. 5. High voltage generating projectile according to claims 1 to 4, characterized in that the projectile body ( 1 ) and the projectile cap ( 2 ) are provided with a fixed and releasable connection. 6. High-voltage projectile according to claims 1 to 5, characterized in that the striking mechanism with the striking spring ( 9.1 ) and return spring ( 9 ) is provided with a movable projectile cap ( 2 ).