RO129897A2 - Operation and recoil system - Google Patents

Abstract

The invention relates to an operation and recoil system for compressed air guns which shoots projectiles by means of the compressed air or other gas, such as carbon dioxide. According to the invention, the operation system is characterized in that the propulsion of a projectile () through a barrel () is carried out by compressing the air in a cylinder () by a piston () driven by a linear electric motor () due to the activation of a contact () placed at the end of the cylinder () and the mimick of the recoil is carried out by the motion of the entire assembly of the cylinder (), performed by a linear electric motor () activated by a contact () in the moment when the piston () reaches the maximum compression degree by means of a rod (), the cylinder () - piston () assembly returning to the initial position by means of a recovering spring () allowing a new projectile to be recharged from a charger (), and the piston () returning to the initial position by means of a spring () after cutting off the electric current in both tubular linear motors ().

Description

Drive system and compressed air weapon recoil

An air gun is a shotgun or pistol that fires projectiles with the help of compressed air or other gas, such as carbon dioxide. Various constructive solutions for compressed air weapons are known, such as those described in US Patent Nos. 2012024278, US5924413, US5709199, US5699781, US5596978.

The disadvantage of these compressed-air weapons is that they are silent and without recoil. The problem solved by the invention is the creation of a compressed-air weapon assembly that most closely mimics a real firearm.

The invention relates to an actuation system and the recoil of compressed air arms of low pressure specific to the type of airsoft and / or paintball type. Currently, airsoft weapon systems use three types of systems that provide projectile propulsion: those with a bow, those with gas or CO2, and those with electric drive. The latter have a relatively complicated construction with a rotary electric motor, which by means of reducing gear wheels ensures the compression of a spring which subsequently decompresses suddenly by pressing the piston of a cylinder and ensuring the propulsion of the projectiles. On the other hand, these weapons are required to be the most faithful replicas of the real weapons that imitate them, both visually and functionally. This means that the replicas have that ability to mimic the backward movement of the weapon, the lock and the lock.

The problem solved by the invention is the realization of an actuation system and the recoil of compressed air arms without reducing gear, capable of imitating the movement of the recoil of the weapon, the lock and the lock.

The actuation system and the recoil air arms remove the aforementioned disadvantages by the fact that the propulsion of the projectile is achieved by compressing the air in a cylinder by a piston driven by a linear electric motor and imitating the recoil is accomplished by moving the whole cylinder assembly by a linear electric motor activated when the piston reaches the maximum compression degree, the cylinder-piston assembly returning to its initial position by means of a recovery spring.

By applying the invention, the following advantages are obtained:

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- constructive simplicity and low cost of the device compared to the silimar models currently marketed.

- perfect imitation of real weapons, which is a desirable feature of all such devices.

The following is an example of an embodiment of the invention in connection with Figure 1, which represents:

The launching of the projectile 5 from pipe 6 is carried out classically, by compressing a volume of air from a cylinder 3 open at one end where it has a nozzle 4 of diameter corresponding to the size of the pipe 6. The air compression is carried out by a piston 2 inside the cylinder 3 The piston 2 is actuated by a direct current linear tubular electric motor 14, with the movable part which may be magnet 1 or coil 15, which will be integral with the piston. The activation of this engine is achieved by actuating a contact 7 located at the head of the cylinder, which can be actuated by a trigger-cock mechanism. This assembly, the cylinder 3 with the piston 2 and the linear motor 1 can be executed industrially so that it resembles the carrier of a real firearm.

When the piston 2 reaches the maximum degree of tension it acts on another contact 8 disposed at this level, which, activates another tubular linear electric motor 9 of direct current, located depending on the constructive type of the real firearm above or below the pipe 6, imitating the gas recovery tube of the respective weapon. For example, we have chosen the constructive variant of the superior positioning of pipe 6 of the weapon. This linear motor 9 through a rod 10 integral with the carrier assembly ensures the backward movement of the compression cylinder assembly 3, imitating the backward movement of the carrier and ensures by means of a recovery spring 11 return to the initial position of the entire system described above, as well as and reloading the weapon with a new projectile from charger 13. Also the reverse movement ensures power interruption in both linear motors 1 and 9. The return of the piston 2 from the cylinder 3 to the initial position after the current is interrupted is also done by means of a small spring 12 located in the cylinder.

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When the current is actuated in the linear motor 14, by means of the contact 7, the piston 2 moves towards the end of the cylinder 3, compressing the air through the nozzle 4 which results in the expulsion of the projectile 5 on the pipe 6. when the piston 2 reaches the end of the stroke in cylinder 3, actuates a contact 8 which produces the activation of the second linear motor 9. This, through the rod 10, leads to a backward movement of the whole piston cylinder assembly compressing the recovery spring.

11. This leads to the general interruption of the electric current in both linear motors. In the cylinder, the return of the piston to the initial position is made by means of the spring 12 and the cylinder assembly returns to the initial place due to the relaxation of the recovery spring 11. Another projectile is advanced on the tube of the loader 13.

Claims (1)

Claim: 1. Compressed-air actuator and recoil system characterized in that the propulsion of the projectile (5) through the pipe (6) is achieved by compressing the air in a cylinder (3) by a piston (2) driven by a linear electric motor (14). ) due to the activation of the contact (7) and the imitation of the recoil and is achieved by moving the entire cylinder assembly (3) by a linear electric motor (9) activated by the contact (8) when the piston (2) reaches the maximum compression degree by means of a rod (10), the cylinder assembly (3) - piston (2) returning to its initial position by means of the recovery spring (11) ensuring the recharging of a new projectile from the charger (13), and the piston (2) returns to its original position by by means of the spring (12) after the interruption of the electric current from both linear tubular electric motors.