TR201707944A2 - VACUUM TECHNIQUE - Google Patents

Abstract

The projected body (1.8) is placed in the launch mechanism (1.9) located in section C (1.1.3) of the main tube (1.1). Vacuum machines (1.2) draw the air molecules in the main tube (1.1) to the external environment. When the body (1.8) ejected by the ejection mechanism (1.9) is released into the main tube (1.1), the ejected body (1.8) begins to advance rapidly and gain acceleration within the main tube (1.1). The sensor system (1.4) detects the projected object (1.8) at the point where the projected object (1.8) reaches maximum speed in the pipe and transmits it to the magnetic switching system (1.5) by means of the connection cable (1.6). The magnetic opening and closing system (1.5) enables the door (1.3) to be opened according to the message it receives. The projected object (1.8) is sent to the desired target.

Description

DESCRIPTION SYSTEM THROWING OBJECTS WITH VACUUM TECHNIQUE Technical Field of the Invention Meet; It is about a system that throws objects to the desired target with vacuum technique. With this system, military It is aimed to send all kinds of ammunition used in the field to the desired target.

State of the Art As known; In order to eject an object, an explosive, a spring, a flexible tire, a pressurized mortar, magnetic ejection system etc. must be. Objects from one point to another One of these elements (explosive material, spring, tire, compressed air, etc.) Force must be applied to the thrown object. A pistol bullet, a cannonball, a mortar bullet etc. Chemical explosives such as gunpowder are needed to launch it to the desired distance.

Spring, tire and compressed air are insufficient to throw objects of certain sizes to desired distances. remains and is not as effective as explosive chemicals.

Explosives are made from different chemicals. These chemical explosives are both costly and While being used, it causes the system to kick back, at the same time it explodes with a great noise. this situation causes users to be affected by excessive noise. These explosions are big ball It becomes even more violent when its bullets are used. Gun powered by chemical explosives cannon (armed), mortar etc. The barrels in the systems heat up after a certain number of shots. Therefore, their efficiency decreases. Explosives containing chemical substances cause environmental pollution. they are.

Liquid and solid fuels are used in rocket and missile-like systems. Rocket and missile systems from the ground As it rises, it moves by expending a great deal of energy against gravity. Rocket and missile at the start This excessive amount of energy consumption they use causes them to need more fuel. This This situation causes the mass of the rocket or missile to increase, resulting in a shortening of their range. is happening.

Technical Problems That the Invention Aims to Solve The system, which ejects objects with vacuum technique, can be used against any chemical explosive, a pedestrian, a flexible tire, compressed air, magnetic launch system, excess rocket fuel, etc. launched without the need The object is designed to be sent to the target at will. Thanks to this system, any military It is a safe shot to eliminate the recoil that occurs as the ammunition is thrown at the target. is intended to do. Since this system is not explosive, it is not exposed to high-intensity sound during shooting. is not maintained. Thanks to this system, it is environmentally friendly since no chemicals are used. A harmful substance is prevented from being released into the environment. Thanks to this system, the ball and The low efficiency of the guns due to the heating that occurs after a certain shot is caused by this. Longer and more efficient shots are provided than not in the system. This system Thanks to this, rockets and missiles are launched up to a certain distance from the ground, resulting in less rocket fuel. are intended to be used. Thanks to this system, rockets and missiles can be sent to a certain distance from the ground. They can travel long distances with less mass than they were launched.

Brief Description of the Invention This invention; throwing an object from one point to a desired point using vacuum technique It is related to a mechanical system that provides

There is a main pipe in the system that throws objects with vacuum technique. The diameter of the main pipe and Its length varies according to the diameter and mass of the object to be launched. The main pipe is made of metal or hard It is made of plastic. The inside of the main pipe is covered with a slippery substance.

There are two or more vacuum machines in the system. Vacuum machines are the main ones in the system. It provides the outside absorption of the air inside the pipe. Vacuum machines A section of the main pipe mounted symmetrically on both sides.

The object to be launched is placed in the C section of the main pipe in the system. thrown object, throw It is attached to the mechanism with nails. The air in the main pipe is evacuated by operating the vacuum machines. Mother When the air in the pipe is discharged, the object to be ejected from outside into the main pipe with the effect of atmospheric pressure. pushed right. Vacuum machines also quickly pull the object inwards towards the cover, and this pull As a result, the object accelerates in the pipe by accelerating. Maximum alignment is reached in the pipe. thrown object At the point where the maximum alignment is reached, the object thrown by the sensors is detected and the magnetic tripping transmitted to the closing system. The magnetic opening and closing system also allows the cover to be opened. launched The object leaves the system that throws the objects with the vacuum technique and heads towards the target. Cover, magnetic opening It is closed again by the closing system and the system is made ready for a new shot.

Figures to Help Understand the Invention Figure -1; Launching System Working with Vacuum Technique 1.1 Main Pipe 1.2 Vacuum Machines 1.3 Cover 1.4 Sensor System 1.5 Magnetic opening and closing system 1.6 Connection Cable 1.7 Short Pipes 1.8 Launched Object 1.9 Launch Mechanism 1.10 Fasteners 1.11 Digital Protractor 1.12 Carrying Leg 1.13 Cable 1.14 Chips 1.15 Series Launch System Figure- 2; Main Figure-3; Vacuum Machine Figure -4;Cover Figure-5; Sensor System Figure-6; Magnetic Opening and Closing System Figure-7;Connection Cable Figure -8; Short Pipes Figure -9; Launched Object Figure-10; Launch Mechanism Figure-11; Connectors Figure-12; Digital Protractor Figure-13; Carrying Leg Figure-14;Cable Figure-15 Fis Figure-17 Visual Showing the Operation of the Launch System Working with the Vacuum Technique Reference Numbers l. Launching System Working with Vacuum Technique 1.1 Main Pipe 1.1.] Part A 1.1.2 Part B 1.1.3 section C 1.2 Vacuum Machines 1.3 Cover 1.4 Sensor System 1.5 Magnetic opening and closing system 1.6 Connection cable 1.7 Short Pipes 1.8 Launched Object 1.8.1 Slot 1.9 Launch Mechanism 1.9.1 Trigger 1.9.2 Spring 1.9.3 quotes 1 .10 Fasteners 1.11 Digital Protractor 1.12 Carrying Leg 1.13 Cable 1.14 Chips 1.15 Series Launch System Detailed Description of the Invention In Figure -1, there is the ejection system (1) working with vacuum technique. working with vacuum technique launch system; main pipe(l.l), vacuum machines(1.2), cover(l.3), sensor system(1 .4), magnetic on/off system (1 .5), connection cable ( 1 .6), short pipes ( 1 .7), thrown object (1.8), throwing mechanism (1.9), fasteners (1.10), digital protractor (l.l l), carrying leg (l .12), It consists of cable (1 . 13), plug (1 . 14) and serial launch system (1 .15). working with vacuum technique The launch system (1) is produced in different sizes depending on the mass and volume of the object to be launched (1 .8).

In Figure-2, the main pipe(1 .1); It consists of three parts, part A, part B and part C. is formed.

A section (1.1.1) vacuum machines (1.2), short booms (1.7), sensor system (1.4), magnetic trip Connection elements (1 . 10) and digital protractor (1.11) are mounted in the section (l .1.2). C The ejection mechanism (1.9) and the serial ejection system (l.15) are mounted in the section (1.1.3).

Main pipe(l.l); ejected, the air inside is evacuated by vacuum machines (1.2). It is the part in which the object (l .8) moves and carries the other elements of the system. Mother The A end of the pipe(] .1) is the cap(l .3). Cover (1.3) magnetic opening and closing system (l .5) is fastened. Magnetic opening and closing system (l .5) is fixed to the main pipe (1.1). Mother There are two (may be more than 2) short pipes (1 .7) in section A of the pipe(1 . 1). The main pipe is 11(l.1) A. 2-5 cm behind the intersection of the short pipes (1 .7) and the main pipe (].1) in the inner part of the section (l .1.1). sensor system( 1 .4) is installed. A section( 1 . 1 . 1) of main pipe( l . 1), after short pipes(1.7) Since the velocity of the thrown object (1.8) decreases, it is terminated 5-10 cm away from the short pipes (1.7). Mother It is used to drop the projectile (1.8) into the main pipe (1.1) in the C section (1 . . .3) of the pipe (1.1). The ejection mechanism( 1 .9) is mounted. On the outer middle surface of the B section of the main pipe(1 . 1) connection elements (1.10) and digital protractor (1.11) are located. The length of the main pipe will be thrown depends on the mass and volume of the object. This length can be between 1 meter and 25 meters. Mother The pipe is made of metal or hard plastic. The inner surface of the main pipe (1.1) determines the coefficient of friction. Made of slippery material for dropping.

Figure-3 vacuum machines(1.2); they are located in section A (1.1.1) of the main pipe. of the main pipe (1.1) They absorb the air inside and release it to the outside environment. Vacuum machines (1 .2), air in pipe A large part of the molecules are released to the outside environment and gas molecules are released inside the main pipe. make sure it doesn't. No matter how powerful the vacuum machines are, the force applied to the thrown object (1 .8) is 0. the more it will be. Vacuum machines (1.2) are mounted on short pipes (1.7) by providing air insulation. has been made. Vacuum machines (1.2) together with the short pipes (1.7) to the A section of the main pipe (1.1) (1 . 1 .1) It is mounted at an angle of 45 degrees towards the cover (1 .3). Vacuum machines 220 V01t city They work with current. (May be in generator.) They are connected to vacuum machines (l.2), cable (1.13) and plug (1.14).

Figure-4 cover(1.3); It is located in the A section (1.1.1) of the main pipe. Main pipe11(1.1) A It ensures that the mouth in the section (1 . 1 . 1) remains closed. Cover( 1 .3), vacuum machines (1.2) work It is closed unless the projected object (1.8) leaves the system. Thrown object(1.8) atmosphere With the effect of pressure and vacuum, it accelerates in the main pipe (l .1) and accelerates vacuum machines ( l .2) The maximum alignment is reached when it approaches the short pipes (1.7) on which it is mounted, while the sensor system ( 1 .4) It detects the thrown object (1.8) and the magnetic on-off system (1.5) indicates that the object is approaching the cover. It is transmitted via the connection cable (1.6). Magnetic opening and closing system (1.5), the cover (1.3) is opened suddenly and It makes the thrown object (1.8) come out. Magnetic tripping after the thrown object(1 .8) comes out The closing system (1.5) ensures that the cover (1.3) is closed again. Launched from short pipes(1.7) Since the speed of the object (l .8) will decrease, the cover (1.3) is positioned 5-10 cm away from the short pipes. Cover(1.3) It is made of impact resistant material. The part where the cover comes in contact with the main pipe (l . 1) It is insulated by using insulated material to prevent leakage.

Figure-5 sensor system (1 .4); It is located in the A section of the main pipe (l. l .1). Thrown object (l.8) in the pipe accelerates by accelerating when approaching the short pipes(] .7) where the vacuum machines(1.2) are mounted maximum alignment is reached, while the sensor system (1.4) detects the thrown object (1.8) and magnetic tripping It transmits to the closing system ( l .5) with the help of the connection cable ( l .6). Magnetic opening and closing system (l .5) It enables the cover (1.3) to be opened according to the message it receives.

Figure-6 magnetic opening and closing system (1.5); It is located in the A section of the main pipe (l. l .1). You ask It enables the cover (1.3) to be opened with the message it receives from the system (1.4). Thrown object (1.8) with vacuum technique After leaving the working ejection system (1), the cover (1.3) magnetic opening and closing system (1.5) is closed again.

Figure-7 connection cable(1.6); It is located in section A (l .1.1) of the main pipe. With sensor system (1.4) It provides the connection between the magnetic opening and closing system (1.5). Connection cable(1.6) conductor made of material.

Figure-8 short pipes(1.7); It is located in the A section (1 . 1 .1) of the main pipe. Main vacuum machines( 1 .2) It allows it to be connected to the pipe (1.1). The thrown object(1 .8) is short to avoid hitting the vacuum machines(1.2). the diameters of the pipes (l .7) are shorter than the diameter of the main pipe (l . l). Thrown object( 1 .8) short It is large enough to not pass through the pipes (l .7).

Figure-9 thrown object(1 .8); a certain type of ejection launched by the ejection system (1) working with the vacuum technique. three bodies of mass and volume made of different solid materials with a cylindrical shape and a cone-shaped tip. dimensional product. The diameter of the projected object (1.8) must be adjusted to the main boom (1.1) to prevent leakage in vacuuming. It should be 1mm -me (millimeter) shorter than the diameter. The diameter of the thrown object (1.8) is less than the diameter of the short pipe (1.7) it should be long. If the diameter of the thrown object (1.8) is shorter than the diameter of the short pipes (l .7), the thrown object (1 .8) With the effect of the speed it receives, it passes through the short pipes (1.7) and hits the vacuum machines (1.2) and the vacuum causes damage to the machines (1.2). There is a slot (1.8.1) on the thrown object (1.8). Each all kinds of military ammunition (bullet, rocket launcher, mortar shell, rocket, missile, etc.) The thrown object is named (1 .8). If desired, this can be used for solid objects other than military ammunition. can be launched by the system.

Figure-10 ejection mechanism (1.9); It is located in the C section (1.1.3) of the main pipe. with vacuum technique In the working ejection system(1), it is ensured that the ejected object (1.8) is left in the main pipe (1.1) in a healthy manner. it provides. The hilt (1.9.3) in the throwing mechanism(1 .9), into the slot (1.8. l) in the thrown object (1.8) it will pass. When the trigger( 1 .9.1) on the launch mechanism( 1 .9) is pressed, the tab( 1 .9.3), With the help of the spring (1.9.2), the thrown object (l .8) gets rid of the slot (1.8.1). emancipated ejected the object (l.8) moves into the main pipe (l.l). The newly launched object (l.8) to the main pipe (1.1) When placed, the ejection mechanism (1.9) is made ready for a new shot again. Launching By placing the rapid launch system (1.15) behind the mechanism (1.9), rapid firing can be performed.

Figure-ll connectors(1 . 10); It is located in the B section (1.1.2) of the main pipe. Transport of main pipe(l.1) It allows it to be attached to its feet (l.12). Fasteners (1.10), ejection working with vacuum technique It has a movable structure so that the system (1) can shoot at the desired slope.

Figure-12 Digital protractor(1.11); It is located in the B section (1.1.2) of the main pipe. working with vacuum technique It allows the ejection system (1) to eject at the desired angle.

Figure-13 carrying foot1(1.12); the ejection system (1) working with the vacuum technique, on which it is placed It is triangular in shape. It can be produced from iron or concrete. Ejection working with vacuum technique system (l) can be used without the need for a carrying foot (1 . 12) as it does not cause any recoil.

Figure-14 container10(1.13); transfers electrical energy to vacuum machines(l .2). Cable(l.l3) electrical conductor made of material.

Figure-15 fis(1.14); by plugging in the electrical energy to the vacuum machine (1.2) via the cable (1.13). allows it to be transmitted.

Figure-16 serial launch system(1.15); It is located in the C section (1.1.3) of the main pipe. Thrown object(l.8) It ensures that it is sent to the ejection mechanism (l .9) in succession.

Figure -17 is the operation of the ejection system (1) working with the vacuum technique; Launched object(1.8) main It is placed in the ejection mechanism ( l .9) located in the C section ( l . l .3) of the pipe (l . 1). Vacuum machines(1.2) are operated with the city current. Vacuum machines (1.2) air in the main pipe (l .1) attracts molecules to the external environment. A vacuumed environment is formed in the main cavity (l .1). Main (1 . 1) This vacuum environment inside tries to absorb the object to be launched. Thrown object( l .8) from outside also under the influence of atmospheric pressure. The object (1.8) to be launched is externally affected by the atmospheric pressure. It is pushed into the pipe and is also pulled in by the vacuum environment inside the main pipe.

When the Object ( l .8) ejected by the ejection mechanism (l .9) is dropped into the main pipe ( l .1) The thrown object (1.8) starts to advance rapidly and gain acceleration inside the main pipe (1.1). Mother The longer the pipe (l.l) is, the higher the speed of the thrown object (1.8) will be at the same rate. posted When the velocity of the object( 1 .8) approaches the short pipes(1.7) where the vacuum machines(l .2) are mounted, the maximum reaches the line. The sensor system (1.4) is at the point where the projectile (1.8) reaches the maximum alignment in the pipe. Detects the thrown object (1.8) and connects to the magnetic on-off system (1.5) with the help of the cable (1.6). transmits. The magnetic opening and closing system (1.5) also allows the cover (1.3) to be opened according to the message it receives.

The magnetic opening and closing system (1.5) also allows the cover (1.3) to be opened suddenly and the thrown object (1.8) out. makes it come out. Magnetic on/off after the thrown object( 1 .8) comes out of the system system (1.5) ensures that the cover (1.3) is closed again. The ejection system (1) working with vacuum technique, this It sends the object (1.8) thrown with the technique to the desired target.

Industrial Application of the Invention The ejection system, which works with vacuum technique, can be used for production purposes in the industry. Military It is an important product that can be used in the field. This product is available in different sizes depending on the ammunition to be used. is produced.

Claims (22)

REQUESTS 1.Invention; o dropping the ejected object (1.8) to the main pipe (1.1) by the ejection mechanism (l.9), o acceleration of the ejected object (1.8) in the main pipe (l.l) with the effect of vacuum machines (1.2) and atmospheric pressure o sensor system (l) .4) detecting the thrown object (l.8) when it reaches the maximum alignment o transmitting it to the magnetic opening and closing system (l.5) o magnetic opening and closing system (l.5) opening the cover (l.3) and removing the thrown object (1 .8) from the system It is related to the Launch System Working with Vacuum Technique (1), which includes the process steps of reaching the target by taking off and its feature is; main pipe (1.1), vacuum machines (l .2) that pull the air molecules inside that main pipe (1.1) out and the atmospheric pressure exerts force on the object (1.8) that is thrown from the outside, and accelerates the thrown object (1.8) in the main pipe (1.1), o sensor system (1.4), o magnetic on-off system (l .5), o connection cable (1.6), 0 short pipes (1.7), o thrown object (1.8), o launch mechanism(1 .9), 0 digital Protractor (1.1 1), 0 serial launch system (1.15) o elements. 2. It is related to the Launching System (1) Working with Vacuum Technique in accordance with the request, and its feature is; It contains a carrying leg (1 . 12). 3. It is related to the Launching System (1) Working with Vacuum Technique in accordance with Claim 1, and its feature is; contains kab10(1.13). 4. It is related to the Launching System (1) Working with Vacuum Technique in accordance with Claim 1, and its feature is; fis(1.14). 5. It is related to the Launching System (1) Working with Vacuum Technique in accordance with Claim 1, and its feature is; Consisting of A section (1.1.1), B section (1.1.2), C section (1.1.3), which carries the other elements of the system, in which the air inside is evacuated by vacuum machines (1.2), the thrown object (1.8) moves, and its interior It contains the main pipe (1.1), which is the main part of the system made of slippery material. 6. It is related to the Launching System (1) Working with Vacuum Technique in accordance with Claim 1, and its feature is; The main reason is that it contains vacuum machines (l .2) that have the feature of absorbing the air molecules inside the main pipe (1.1) and releasing them to the outside environment. 7. It is related to the Launching System (1) Working with Vacuum Technique in accordance with Claim 1, and its feature is; It contains a cover (1.3) which is opened by the magnetic opening and closing system (1.5) and then closed again when the thrown object (1.8) leaves the system (1) that throws the objects with the vacuum technique. 8. It is related to the Launching System (1) Working with Vacuum Technique in accordance with the request, and its feature is; It contains a sensor system (1.4) that detects when the thrown object (l.8) reaches the maximum alignment and transmits it to the magnetic opening and closing system (l.5) with the help of the connection cable (1.6). 9. It is related to the Launching System (1) Working with Vacuum Technique in accordance with Claim 1, and its feature is; It contains a magnetic opening and closing system (1.5) that enables the cover (1.3) to be opened according to the message it receives from the sensor system (1.4). 10. It is related to the Launching System (1) Working with Vacuum Technique in accordance with the request, and its feature is; It contains a connection cable (1.6) with conductivity that provides connection between the sensor system (1.4) and the magnetic on-off system (1.5). 11. It is related to the Launching System (1) Working with Vacuum Technique in accordance with the request, and its feature is; It is connected to the main pipe (1.1) at an angle of 45 degrees, it contains short pipes (1.7) that provide the connection between the vacuum machines (1.2) and the main pipe (1.1) and carry the vacuum machines (1.2) on it. 12. It is related to the Launching System (1) Working with Vacuum Technique in accordance with Claim 1, and its feature is; It contains a projected object (1.8), which is a three-dimensional product made of various solid materials with a cylindrical body and a cone-shaped body, which is launched by the ejection system (1) working with the vacuum technique. 13. It is related to the Launching System (1) Working with the Vacuum Technique in accordance with the request, and its feature is; It contains a launching mechanism (1.9) that has the feature of dropping the object (1.8) to be thrown into the main pipe (1.1) in a healthy manner at the time of launch. 14. It is related to the Launching System (1) Working with the Vacuum Technique in accordance with the request, and its feature is; It contains connection elements (1.10) that enable the main pipe (l.l) to be connected to the tas1ma feet (1.12) and have a movable mechanism so that the system can work at the desired slope. 15. It is related to the Launching System (1) Working with Vacuum Technique in accordance with Claim 1 and its feature is; The ejection system (1) working with the vacuum technique includes a digital protractor (l .11) that enables it to eject at the desired angle. 16. It is related to the Launching System (1) Working with Vacuum Technique in accordance with Claim 1, and its feature is; The ejection system (1) working with the vacuum technique includes a triangular shaped carrying leg (1.12) on which it is placed. 17. It is related to the Launching System (1) Working with Vacuum Technique in accordance with the request, and its feature is; It contains a cable (1.13) that provides electrical energy to be transmitted to the vacuum machines (1.2) in the system. 18. It is related to the Launching System (1) Working with Vacuum Technique in accordance with the request, and its feature is; It contains a plug (l.l4) that transmits electrical energy to the vacuum machine (l.2) through a cable (l.l3) by being plugged into a socket. 19. It is related to the Launching System (1) Working with the Vacuum Technique in accordance with the request, and its feature is; It contains a serial ejection system (l.15) that allows the ejected object (1.8) to be released into the system one after the other. 20. It is related to the Launching System (1) Working with Vacuum Technique in accordance with the request, and its feature is; The thrown object (1.8) accelerates up to the short booms (1.7) to which the vacuum machines (l .2) located near the mouth of the main pipe (l.l) (l.l) are connected, and since its speed begins to decrease after the short pipes (1.7). The main pipe (1 .1) is located 5-100m after this point. 21. It is related to the Launching System (1) Working with Vacuum Technique in accordance with Claim 1, and its feature is; The cover (1.3) is positioned no more than 5-100m away from the short pipes (1.7) to which the vacuum machines (l.2) are connected, in order for the projectile (1.8) to leave the system at maximum speed. 22. It is related to the Launching System (1) Working with the Vacuum Technique in accordance with the request, and its feature is; The sensor system (l.4) is located 2-5 cm behind the intersection of the short pipe (l.7) and the main pipe (l.l), which is the point where the thrown object (l.8) reaches the maximum alignment.