CA2737230A1 - Pneumatic mechanism for a toy weapon that fires lightweight paintballs or plastic beads, actuated by special pyrotechnic ammunition - Google Patents

Abstract

The invention relates to a pneumatic mechanism actuated by a specific pyrotechnic munition. The pneumatic mechanism is actuated by a specific pyrotechnic ammunition or a blank ammunition and is characterized in that the recoil of the breech block actuates a piston that compresses air in a compression chamber to propel a ball of paint or of low weight plastic. Application to toy guns of the "Paintball" or "Airsoft" type to improve the realism of shooting.

Description

WO 2010/02927

2 PCT / FR2009 / 051727 PNEUMATIC MECHANISM FOR LAUNCHING TOY-ARM
LOW WEIGHT PAINT OR PLASTIC BALLS, ACTIVATED BY SPECIFIC PYROTECHNIC AMMUNITION.

The present invention relates to a mechanism for toy to new operation and in particular a pneumatic mechanism throwing paintballs or lightweight plastic powered by ammunition specific pyrotechnic or blank ammunition intended for to improve the realistic shooting of launchers of the type "Paintball" or "Airsoft".

State of the art Launchers of the "Paintball" or "Airsoft" type exist since a long time. The ball can be launched from different ways either by piston compressing air coupled to an electric gear, typically using a bottle of compressed air or C02. All these launchers offer very little shooting realism.
For the training of the armed forces, there are ammunition with striking projectiles that offer more realism, among which those described in the WO9841810 and WO9114148, but their use requires to have a handgun to fit a kit conversion.
Some of these munitions are very expensive in terms of use, which is detrimental to the number of training and therefore the quality of intervention.

Purpose of the invention The present invention aims to design a pneumatic mechanism for toy gun throwing balls of paint or low weight plastic powered by a specific pyrotechnic ammunition, accessible to an audience major, inexpensive in its use and offering a more realistic operation compared to launchers "Paintball" and "Airsoft".
The invention also aims to develop a mechanism which makes accidental or voluntary introduction impossible a real ammunition in the room. It is also appropriate to specify that the choice of materials of different parts mechanism prohibits the firing of an actual ammunition, in using, for example, plastics or alloys aluminum or zinc base.
Thus the invention relates to a pneumatic mechanism actuated by its a specific pyrotechnic ammunition or by a blank ammunition that stands out in that the decline of the breech block actuates a piston that compresses air located in a compression chamber to propel a ball of paint or plastic of low weight.
According to an alternative embodiment, the mechanism can be activated by a blank ammunition. This variant improves considerably the quality of training and, consequently, the quality of the intervention. It is therefore mainly intended for the training of the army and the police.
The invention also relates to an ammunition specific pyrotechnics adapted to the pneumatic mechanism above. This ammunition is distinguished in that it includes a case with several regular grooves on its part before, a piston forcefully introduced into the case, and a primer standard.

Description of the invention The invention will now be described with reference to figures given for illustrative and non-limiting purposes, in order to facilitate understanding of the characteristics of the invention.
Fig. 1 represents a sectional view of the munition.
Fig. 2 represents a sectional view of the armed mechanism of the specific ammunition.

3 Fig. 3 represents the position of the different pieces of the mechanism just before the ejection of the specific ammunition.
Fig. 4 represents a detail sectional view of the part back of the shirt and the valve.
Fig. 5a and 5b represent two variants of embodiment cylinder block with the piston disengaged from its block.
The terms "before" and "rear" respectively refer to the front and the back of the different parts, in the sense of shooting.
As shown in Figure 1, the ammunition includes - a case (2) provided with 2 or 4 regular grooves (4) on its front part. Curvature (8) or possibly a chamfer, facilitates the introduction of ammunition into the chamber (38) of the body (10);
- a piston (3), ideally rubber, introduced slightly in force in the hole (5) of the case; and a standard primer (1).
The case, preferably in plastic, can be obtained by thermoforming, molding or even being cut in the mass. The piston (3) made of an elastic material, ideally made of rubber, is obtained by cutting a few millimeters thick or made by molding.
Figure 2 illustrates the armed mechanism of its ammunition. The body (10) has the particularity that an axis (20) is concentrically disposed in the chamber (38) in which the ammunition. Preferably, this axis is molded with the body and it is made so that its face (32) does not interfere the introduction of the ammunition. When loading the ammunition in the chamber, the front face of the piston (6) does not touch the face (32) of the axis (20).
When the striker (22) strikes the primer (1) of the ammunition, a pressure is created in the cavity (9) of the case (2) pushing the piston (3) forward. The face (6) of the piston then comes into contact with the face (32) of the axis (20) and with the As the pressure increases, the case (2) decreases pushing the breech block (21) backwards with sufficient

4 force to operate the system. The combination of the axis (20) and the specific pyrotechnic ammunition presents the particularity that the pyrotechnic munition of the invention develops sufficient force to actuate the mechanism, ie the complete retreat of the breech block necessary for pneumatic operation and automatic replenishment of the mechanism, only with a standard primer, without any powder additional.
The pressure generated by the primer pushes the piston (3) ammunition until its rear face (7) exceeds the bottom of the grooves (11) of the case. The pressure then escapes through these grooves and when all the pressure is removed, the piston (3) stops its movement and remains inside the hole (5) of the case.
According to a feature of the invention, during the recoil of the breech block, the piston (24) secured to the block cylinder head (21) moves back at the same time and compresses the air in the compression chamber (26) to the admission chamber (27).
The dimensions of the compression chamber vary in depending on the desired power.
According to an embodiment variant of the breech block, this piston can be detached from the breech block. A spring this compression (13) is introduced into the chamber to enable the piston to ensure its function, that is to say to return to initial position after compressing the air from the chamber of compression (26). This spring is ideally conical for allow the piston to make a sufficient run necessary at the launch of the ball. Note in Figure 5a that, thanks to this spring, the face (14) of the piston (24) remains in contact against the face (15) of the breech block (21).
According to another embodiment represented by 5b, a ring (16) screwed or force-fitted into the body chamber can ensure the maintenance of the piston in this room and, when the bolt recoil, the face (15) will come into contact with the face (14) of the piston (24), pushing the latter to compress the air of the chamber of compression (26).
When the air pressure reaches a sufficient level

5 to overcome the resistance of the spring (41), the valve (48) translate the ball (31) forward and direct it towards the gun. The valve (48) is ideally made of aluminum cut into the mass and slides in the bore (60) of the jacket (42).
The shirt can also be aluminum or any other alloy having the desired mechanical characteristics.
As shown in Figure 4, on the back of the the sleeve (42) is provided with 2 or 4 regular grooves (33). The rear portion of valve (48) has through holes (34), in the same number and oriented preferably according to the same groove axis (33) of the liner (42).
So when the valve is translated forward, the valve holes and the grooves of the shirt are going cooperate to form a channel and evacuate the compressed air so to propel the ball into the barrel. At the end of the race, the valve hangs at the end of its translation through a locking system.
This blocking allows on the one hand, the return of breech block for the replenishment of ammunition, and secondly, the air filling of the chamber (26). A recovery spring (not shown) contributes to the return of the breech block.
In Figures 2 and 3, there is an example of realization of the locking system. This system consists of the tongue (83) on which two axes (84, 85) are crimped, and a tension or compression spring (not shown) which plates the system towards the body (10). The axes (84) and (85) slide in the bores of the body (10), respectively (86) and (87).
A hole (88) provided on the sleeve (42) allows the pin (84) to maintain the shirt (42) in the body (10) and communicate with the flat (90) of the valve (48) to activate the blocking.

6 When the breech block (21) is pulled back, the front part (93) of the axis (91) leaves the contact with the front (94) of the axis (85), the face (95) of the axis (84) then bears against the outer diameter of the valve (48) and during the translation of the latter the face (95) rubs on the outside diameter of the valve until the flat (90).
The blockage of the valve is thus established when the face (95) of the axis (90) comes into contact with the face of the flat (90). When returning the breech block, the front part (93) of the shaft (91) enters the hole (76) of the body (10) and causes the translation of the axis (85). The face (95) of the axis (84) then leaves the flat (90), and thanks to the spring (41) the valve (48) returns to the initial position. A new ball is then placed in the launch chamber (44).
Parts (94) and (93) have an appropriate shape so that the axis (91) communicates the translation to the axis (85).
When returning the breech block (21), provided classically by a recuperating spring (not shown), the front part (93) of the shaft (91) enters the hole (76) of the body (10) and causes the translation of the axis (85). The face (95) of the axis (84) then leaves the flat (90) and thanks to the spring (41) the valve (48) returns to its initial position, a new ball is then placed in the launch chamber (44).
During the return of the breech block, a new ammunition is placed in the room (38).
The cycle described in the previous phases is repeated until there is no more ammunition. Ideally the number of ammunition is the number of marbles. According to desired power, the mechanism may have a body having several compression chambers (6) and by therefore a cylinder head having the number of piston (24) corresponding.
According to another variant embodiment, the mechanism pneumatic can be operated by a blank ammunition. This

7 variant well suited to the training of the army, is based on the same principle, ie a piston integral or not of the breech block, compresses air in a room of compression to propel a ball of paint or low weight plastic. The system is therefore devoid of the shaft (20) but has a gas exhaust duct cleared by the ammunition blank.

Claims (9)

1. Pneumatic mechanism powered by a munition specific pyrotechnic or by a blank ammunition characterized in that the recoil of the breech block actuates a piston that compresses air located in a chamber of compression in order to propel a ball of paint or low weight plastic. 2. Pneumatic mechanism powered by its ammunition specific pyrotechnic or blank ammunition according to the claim 1, characterized in that the piston is secured breech block. 3. Pneumatic mechanism powered by its ammunition specific pyrotechnic according to any of the preceding claims, characterized in that in the a chamber (38) is arranged concentrically mounted compared to this room. 4. Pneumatic mechanism powered by its ammunition specific pyrotechnic system, characterized in that the axis (20) of the chamber allows the ammunition to develop sufficiently energy to operate the mechanism, ie the recoil complete breech block only with a standard primer, without additional powder. 5. Pneumatic mechanism powered by its ammunition specific pyrotechnic according to claim 4, characterized in that the ammunition comprises:
- a case (2) provided with 2 or 4 regular grooves (4) on its front part;
- a piston (3), preferably of rubber, introduces in force in the hole (5) of the case; and - a standard primer (1) characterized in that the face (32) of the mounted shaft (20) in the chamber (38) of the body (10) associated with the piston (3) of the specific pyrotechnic ammunition by the face (6) allows the latter to develop the energy needed to operate the pneumatic mechanism and supply automatically in ammunition without additional powder. 6. Pneumatic mechanism powered by its ammunition specific pyrotechnic according to claim 5, characterized in that the piston (3) is made of a material elastic, preferably rubber, and is mounted in force in the hole (5) of the case (2). 7. Pneumatic mechanism powered by its ammunition specific pyrotechnic or blank ammunition according to one any of claims 1 to 5, characterized in that the body has multiple compression chambers and a block cylinder head having the corresponding number of pistons. 8. Pneumatic mechanism powered by its ammunition specific pyrotechnic or blank ammunition according to one any of claims 1 to 5 and 7, characterized in that that the return movement of the breech block ensures the operation of the valve blocking system and the replenishment of beads. 9. Specific pyrotechnic ammunition adapted to pneumatic mechanism according to any of the claims cations, characterized in that it comprises a case (2) provided with several regular grooves (4) on its front part, a piston (3) forced into the case, and a standard primer (1).