FR2847665A1 - Compressed gas operated pistol, has a sealing element operated by the trigger to isolate the chamber with respect to the ammunition magazine opening at the time of firing - Google Patents

Abstract

The pistol (1) has a barrel (2) with a rear end (2a) facing the chamber (3). The barrel can move, being linearly guided to perform a rocking movement in an axial direction, and is linked to the trigger (5a), with an elastic element (51) which pushes the trigger and barrel assembly forward to the resting position. The linkage is such that when the trigger is pressed against the force of the elastic element, the trigger moves the barrel backwards activating the seal to isolate the chamber with respect to the ammunition magazine. The elastic element (51) is made as an elastic traction spring. A voluntary safety element is mounted on the exterior of the upper section of the stock zone, and is pivoted between a locked position where a tooth fits into a recess of the sliding cover, and a free position, where the tooth is not fitted into the recess.

Description

COMPRESSED GAS GUN

  Field of the Invention The present invention relates to a compressed gas pistol and more specifically, a compressed gas pistol comprising a sealing element making it possible to isolate the chamber with respect to the mouth of the ammunition store at the time of firing. Technical Background Compressed gas pistols of the type are known which essentially comprise a support carcass which defines a barrel zone, a trigger zone and a breech zone. In the barrel area is a barrel, the rear end of which faces a chamber, in the trigger area is a trigger connected to the actuator of a striker and in the breech area is finds an ammunition store ready to introduce a ball into this chamber through a mouthpiece before each shot and a container of pressurized gas which communicates with a valve chamber which, in turn, communicates with this chamber through a valve element driven by elastic means to a closed position. The valve element can be instantly moved to the open position by the impact of the striker. The disadvantage presented by this type of gun in the state of the art is that the mouth of the magazine, through which the balls enter the chamber, opens into an interior wall of the chamber and that this has the effect that at the time of firing, part of the pressurized gas supplied by the valve element escapes through this mouth towards the interior of the magazine and is not used to impulse the ball. This means that there is a loss of energy supplied by the pressure of the gas which comes at the expense of the range of the projectile. The objective of the present invention is to offer a compressed gas pistol comprising a sealing element activated by the trigger intended to isolate the chamber with respect to the mouth of the ammunition store at the time of firing. Brief description of the invention The preceding objective is achieved, in accordance with the present invention, by offering a compressed gas pistol of the type described above, where the barrel is movable and guided linearly so as to perform a back and forth movement in the axial direction. This movable barrel is connected to the trigger and an elastic element has been provided to push the trigger and barrel assembly forward into an inactive position. This link between the trigger and the barrel is such that, when the trigger is pressed so as to overcome the resistance of this elastic element, the trigger moves the barrel back and thus activates a sealing element intended to isolate the chamber compared to the ammo store. Preferably, this sealing element comprises a thin cylindrical wall adapted directly to the rear end of the barrel by defining an interior surface which is the continuation of the surface of the core of the barrel, an exterior surface capable of adjusting to the interior surface of the chamber and a perimeter terminal edge. This thin cylindrical wall is arranged in such a way that, when the barrel is moved rearward by the trigger, the thin cylindrical wall penetrates precisely into the chamber by receiving on the way inside the ball which is in the chamber , until the perimeter terminal edge bears against a rear surface of the chamber, maintaining the seal around the gas inlet passage. In this position, the thin cylindrical wall fitted to the rear end of the barrel fulfills the chamber functions, at the same time that the external surface of the thin cylindrical wall closes the mouth of the magazine, thus guaranteeing that all the gas discharged during of the shot goes inside the barrel’s soul and its energy will be fully used to boost

the marble.

  As usual, the ammunition magazine has an ammunition magazine for a line of numerous balls. This store communicates with the chamber through this mouthpiece and a pusher supported by a spring is ready to push this line of balls towards the chamber, the last ball of the line remaining in the

bedroom.

  In order to prevent the perimeter end edge of the thin cylindrical wall described above from grasping when it enters the chamber the last ball through the central part thereof, wedging it against the rear wall of the chamber, this which would make shooting impossible, the present invention provides release means which include a flap articulated with respect to an axis, located in the mouth between the ammunition store and the chamber. In the inactive position, this flap is pushed upwards by the penultimate ball of the queue, as a result of the force exerted by the magazine spring, and comes with one end caught between the penultimate ball and the last ball located in the room. When the thin cylindrical wall of the rear end of the barrel enters the chamber, the perimeter end edge pushes this flap down and it drives the penultimate ball and with it the rest of the line against the resistance of the magazine spring, leaving the last ball free in the chamber ready to be received inside the thin cylindrical wall. To this end, the flap offers an adequate cross-section profile. As usual, the outside diameter of the ball is slightly smaller than the inside diameter of the barrel core to ensure that the ball does not fall through the mouth of the barrel and to avoid any loss of pressure between

the ball and the barrel.

Brief description of the drawings

  These and other features and advantages will be better understood from

  of the following detailed description of an example of

  realization referring to the attached drawings, o: FIG. 1 is a perspective view of the compressed gas pistol according to the present invention; Fig. 2 is a view in longitudinal section of the gun of FIG. 1; Fig. 3 is an enlarged view of detail III of FIG. 2 showing part of the mechanism in the rest position; Fig. 4 is a view similar to that of FIG. 3, but with the mechanism in the firing position; Fig. 5 is a side elevational view of part of the mechanism, where one of the contours of the carcass is indicated using a dotted line; Figs. 6 and 7 are views in longitudinal section of the movable breech in the inactive and firing positions respectively, where one of the contours of the carcass is indicated by dashed lines and dots and the other elements of the mechanism by lines of lines; Fig. 8 is a cross-sectional view taken along line IX-IX of FIG. 5 and FIG. 9 is a cross-sectional view of the cylinder head which includes the charger and the gas container taken from the cylinder head area.

  Detailed description of an exemplary embodiment

  If we first refer to Figs. 1 and 2, the compressed gas pistol of the present invention is of the type comprising a support carcass (26) which defines the zone of the barrel (1), the zone of the trigger (4) and the zone of the breech (7 ). In the barrel area (1) is a barrel (2), the rear end (2a) of which faces the chamber (3). In the trigger area (4) is a trigger (5) connected to the striker actuation mechanism (6). In the breech area (7) is the ammunition magazine (8) provided for introducing the ball (9a) into the chamber (3) before each shot and a container of pressurized gas (10) which communicates with the chamber with valve (11). This valve chamber (11) in turn communicates with the chamber (3) through the valve element (12), which is pushed by elastic means (not shown here) to a closed position and can be moved instantly to an open position by the impact of the striker (6) As can be seen in FIG. 2 and in accordance with the present invention, the barrel (2) is movable and is guided linearly in order to effect a return movement in an axial direction. The barrel (2) is also connected to the trigger (5) by means of the lever (47) fixedly joined to the barrel (2) and inserted the cavity (46) located in a part of the trigger (5a), of which the trigger (5) is an integral part. This trigger piece (5a) is mounted in the trigger zone (4) so as to be able to move by linear guidance in a direction parallel to the axis of the barrel (2), as will be seen in more detail with reference in Figs. 5 and 8, and an elastic element (51), such as for example an elastic traction spring, has been provided to push the trigger (5) and barrel (2) assembly forward, towards an inactive position. When the trigger (5) is pressed in order to overcome the resistance of the spring (51), the cavity (46) drives the barrel (2) behind, thereby activating the sealing element (2b, 2c) intended to isolate the

  chamber (3) relative to the ammunition store (8).

  As can best be seen in the details of Figs. 3 and 4, the sealing element (2b), (2c) comprises a thin cylindrical wall (2b) adapted to the rear end (2a) of the barrel (2), preferably by machining the very material of the barrel ( 2). This thin cylindrical wall (2b) delimits an inner surface which is the continuation of the surface of the barrel core, an outer surface capable of adjusting to the inner surface of the chamber (3) and the perimeter terminal edge (2c ). We can see in Fig.3 the barrel (2) in the inactive position, in which the sealing element (2b), (2c) of the rear end (2a) of the barrel (2) faces the chamber 3, where is the first ball (9a). The thin cylindrical wall (2b) is located in such a way that when the barrel is moved backwards by the trigger (5) (see Fig. 4), the thin cylindrical wall (2b) enters the chamber (3) , receiving inside by this way the ball (9a) which is in the chamber (3), until the perimeter terminal edge (2c) bears against the rear surface (24) of the chamber (3), and makes a hermetic contact around the gas inlet passage (25), while this outer surface isolates the chamber (3) from the mouth 8a of the

ammunition store (8).

  Typically, the ammunition magazine (8) comprises an ammunition magazine (19) for the file of multiple balls (9), magazine (19) which communicates with the chamber (3) through the mouth (8a). The ammunition pusher (20) loaded by the spring (21) has been designed to push this line of balls (9) towards the chamber (3). According to the present invention, the flap (22) articulated relative to the axis (23) is located at the mouth 8a between the ammunition store (19) and the chamber (3), so that it is pushed upwards by the penultimate ball (9b) of the line. In the inactive position that can be seen in FIG. 3, the flap (22) remains raised, with one of its ends being located between the last and the penultimate ball (9a), (9b). The profile of the cross section of the flap (22) is capable of retaining the first ball (9a) in the chamber (3) and of acting as a cam when it is pushed by the thin cylindrical wall (2b) of the rear end (2a) of the barrel (2). In the firing position shown in fig. 4, the thin cylindrical wall (2b) has penetrated, driven by the trigger (5), into the chamber (3) and the perimeter terminal edge (2c) has pushed the shutter (22) down, which has caused the '' penultimate ball (9b) and with it the rest of the queue by fighting against the force of the spring (21) of the ammunition pusher (20), releasing the first ball (9a), which is introduced in the rear end (2a) of the barrel (2), which now plays the same role as the chamber (3), as explained above. The valve element (12) has been displaced by the impact of the striker (6), as will be seen below, until it makes contact with the seal (56) located at the mouth of the passage (25). The valve element 12 is of the conventional type and has an actuating end (12a) (Fig. 2) on which the striker (6) impacts, an axial passage (12b) with a front opening facing the passage ( 25) and one or more off-center rear openings which are closed by the seal (57) when the valve element (12) is in the inactive position, openings which open in the valve chamber

  11 when the valve element (12) is in the firing position.

  The area of the barrel (1) further comprises at the upper part a slide (13) guided linearly in order to carry out a reciprocating movement in a direction parallel to the axis of the barrel (2). This slide (13) has at the rear end a link (14), (16) with the striker (6), which will be explained in more detail below if reference is made to FIGS. 6 and 7, and is connected to the trigger (5) in such a way that when it is pressed, this link moves the slide (13) backwards and thus proceeds with the latter the charging and triggering of the striker (6) because of the link (14), (16), in synchronization with the rearward movement of the barrel (2). The compression helical spring (48) is located around the barrel (2) and is compressed between the front inner end (13a) of the slide (13) and a surface of the support frame (26), or a body united to it, in order to repel the

  slide (13) forward, to a rest position.

  We can see in Figs. 5 and 8 mounting the trigger (5) in the trigger zone (4). The two parts (59), (60), placed face to face, joined together by the screws (61) and fixed relative to the carcass (26) define between them the guide of the barrel (2), a housing (64 ) for the trigger piece (5a) forming an integral part of the trigger (5) and of the guide grooves (62) in which are inserted the protrusions (63) which project laterally from the trigger piece (5a), so as to that it can move in the housing (64) guided linearly by the guide grooves (62) in a direction parallel to the axis of the barrel (2). The trigger piece (5a) includes the drive pins (44), preferably provided by the ends of a pin (Fig. 8), which protrude laterally from it and interfere with the internal stops (45) of the of the slide (13) to carry out their driving. As noted above with respect to FIG. 2, the trigger piece (Sa) comprises a cavity (46) into which is inserted a lever (47) fixedly joined to the barrel (2) intended for its drive. Between this lever (47) and the contact walls of this cavity (46), there is a clearance making it possible to delay the start of the movement of the barrel (2) relative to the start of the movement of the trigger (5) and of the slide (13) and, in order to guarantee a shorter stroke of the barrel (2), both when the trigger (5) is pressed and

when we release it.

  We can also see in Fig. 5 the automatic safety lever (39) connected to the trigger (5) so that this lever (39) interferes with the stop (41) fixed inside the slide (13) when the trigger (5) is in this inactive position (Fig. 6), preventing any voluntary or involuntary movement of the slide (13) independent of the movement of the trigger (5) which may cause a discharge. The lever (39) is moved away from the trajectory of the stop (41) by the trigger (5) when the latter is pressed (Fig. 7), which allows the displacement of the slide (13) by the trigger (5). This automatic safety lever (39) is joined to the arm (40) mounted on the part (59) fixed to the carcass (26) so as to be able to pivot on the axis (53). This arm (40) comprises a linear guide (54) on which moves a stud (55) joined to the trigger (5) or to the trigger piece (5a), reason for which the displacement behind the trigger (5 ) causes the automatic safety lever (39) to tilt down, as indicated by the lines in

dotted line in Figs. 5, 6 and 7.

  Still in Figs. 6 and 7, we can see the link (14,16) of the slide (13) with the striker (6). This link comprises a pawl (14) articulated by means of a pin (52) supported by a spring (15) and a protuberance (16) which projects laterally from the striker (6). The striker 6 is mounted at the rear part of the carcass (26) so as to be able to pivot on the axis (17), then is pushed by the spring (18) to a position where the pin (58) fixed at its end distal is in contact with the actuating end (12a) of the valve element (12). In the inactive position illustrated in FIG. 6, the slide (13) is in the front position, the striker (6) in the contact position and the pawl (14) is coupled to the protuberance (16) of the striker (6). When the slide (13) is moved linearly backwards by the trigger (5), the pawl (14) drives the protuberance (16) and makes the striker (6) pivot backwards opposing the force of the spring (18 ) until reaching the firing position indicated in Fig. 7, o, by virtue of the curved trajectory of the protuberance (16), the latter escapes from the pawl (14) and the spring (18) pushes the striker (6)

  in order to cause an impact on the valve element (12).

  As stated above, this happens in sync

  with the displacement of the barrel in order to isolate the chamber (3).

  Then, when the trigger (5) has been released, the slide (13) returns to the inactive position by forcing the pawl (14) to overcome the protuberance (16) by

  pivoting to overcome the force of the spring (15).

  The gun has, as shown in Fig. 1, a voluntary safety element (42) mounted outside the il 2847665 upper part of the cylinder head area (7), so as to be able to pivot it voluntarily between a locking position, in which the tooth (42a) of this voluntary safety element (42) fits into the housing (43) of the slide (13) and the release position in which the tooth (42a) is outside the housing (43). This voluntary safety element (42) prevents, by immobilizing the slide (13), any actuation of the trigger (5) which can cause a shot. The carcass (26) of the pistol further comprises on both sides of the lower part of the area of the barrel (1) longitudinal grooves (65) provided for receiving various accessories. If we finally refer to Fig. 9, we can see the charger (27). The support carcass (26) is hollow in the breech zone (7) (see Fig. 2) and is open at its lower part to receive the magazine (27), which includes the ammunition magazine (8) as well as the chamber (3), the cavity (28) intended to house the pressurized gas container (10), as well as the perforation needle (50) making it possible to perforate a gas outlet in the pressurized container (10), the valve body (29) which defines the valve chamber (11) where the valve element (12) is located, and the sliding guard (30) configured and provided to cover the actuating end (12a) valve element (12) when the magazine (27) is removed from the cylinder head area (7). & This sliding protection (30) is pushed by the spring (31) to the protection position indicated in Fig. 9, in which one end of the sliding protection (30) covers the actuating end (12a) of the valve element (12), thereby preventing any accidental actuation of the latter which may cause the involuntary expulsion of the ball (9a) placed in the chamber. Inside the cylinder head area (7) (Fig. 2) is a stop (32) which makes contact with the sliding protection (30) and keeps it in a position set back relative to the force of the spring (31) when the magazine (27) is installed in the cylinder head area (7). The blocking device (33), of a known type, is located in the support casing (26) (see also Fig. 1) so that it can be actuated from the outside in order to retain the magazine (27) in the breech zone (7) opposing the force of the spring 31. When the blocking (33) is released in order to extract the magazine (27), the sliding protection (30) acts as an expeller under

  the effect of the force of the spring (31).

  The loader (27) further comprises a lower cover (34) articulated with respect to an axis (36), provided with an elastic closing tab (37). The lower cover (34) defines an interior cavity intended to house and protect, when it is in the closed position, the tightening butterfly (38) of the pressurized gas container (10). As will be better seen in Figs. 1 and 2, the lower cover (34) defines an outer surface which extends and ends at its lower part the outer surface of the hollow carcass (26) in the breech zone (7), when the magazine (27) is installed

in the cylinder head area (7).

  A subject matter expert could introduce modifications or variations without departing from the scope of the present invention as defined in the

attached claims.

13 2847665

Claims (15)

  1.- Compressed gas pistol, of the type comprising a support carcass (26) which defines: a barrel zone (1) where there is a barrel (2) whose rear end (2a) faces a chamber ( 3); a trigger zone (4) where there is a trigger (5) connected to the actuating mechanism of a striker (6), and a breech zone (7) where there is an ammunition magazine (8) intended to introduce and retain a ball (9a) in the chamber (3) before each shot and a pressurized gas container (10) which communicates with a valve chamber (11) which, in turn, communicates with the chamber (3) to through a valve element (12) urged by elastic means to a closed position, and capable of being instantly moved to an open position by the impact of this striker (6).   Characterized in that the barrel (2) is movable, guided linearly in order to effect a reciprocating movement in an axial direction and is connected to the trigger 5, an elastic element (51) being provided for pushing the trigger (5) and barrel (2) assembly forward towards an inactive position, this link being such that when the trigger (5) is pressed while opposing the force of the elastic element (51), the trigger (5) moves the barrel (2) backwards thereby activating a sealing element (2b, 2c) intended to isolate the chamber (3) from the magazine ammunition (8).   2.- pistol according to claim 1, characterized in that the sealing element (2b, 2c) comprises a thin cylindrical wall (2b) adapted to the rear end (2a) of the barrel (2) defining a surface inner which is the continuation of the surface of the core of the barrel, an outer surface capable of being introduced into the inner surface of the chamber (3) and a perimeter terminal edge (2c), this thin cylindrical wall (2b) being arranged so that when the barrel is moved back by the trigger (5), the thin cylindrical wall (2b) enters the chamber (3) and receives inside the ball (9a) which is in the chamber (3) until the perimeter terminal edge (2c) bears against the rear surface (24) of the chamber (3), around the passage (25) for entering the compressed gas, this external surface preventing the passage of gas towards the mouth (8a) of the ammunition store (8) in the area e inside the chamber (3), release means (22) having been provided for releasing the ball (9a) in the chamber (3) at the same time as the   penetration of the sealing element (2b, 2c) therein.   3.- Pistol according to claim 2, characterized in that the ammunition magazine (8) comprises an ammunition magazine (19) for a file of multiple balls (9) which communicates with the chamber (3) through the mouthpiece (8a) and an ammunition pusher (20) in turn pushed back by the spring (21) and ready to push the file of balls (9) towards the chamber (3), comprising release means (22), a flap (22) articulated with respect to the axis (23) and located in the mouth (8a), between the ammunition magazine (19) and the chamber (3), so that it is pushed towards the top by the penultimate ball (9a) of the line and when the thin cylindrical wall (2b) of the rear end (2a) of the barrel (2) enters the chamber (3), the perimeter end edge (2c) pushes this flap (22) downwards, flap which drives the penultimate ball (9b) and with it the rest of the line opposing the force of the spring (21) of the pusher ammunition (20).   4.- Pistol according to claim 1, characterized in that the barrel area (1) further comprises at its upper part a slide (13) linearly guided in order to be able to perform a movement of va5 and comes in a direction parallel to the 'axis of the barrel (2), this slide (13) comprising at the rear end a link (14, 16) with the striker (6), the slide (13) being connected to the trigger (5) so that that when pressed on it, it moves the slide (13) back, thereby charging and triggering the striker (6) by virtue of the link (14, 16) in synchronization with the movement back barrel (2) 5.- pistol according to claim 4, characterized in that the link (14, 16) between the rear end of the slide (13) and the striker (6) comprises a pawl (14) articulated by means of a pin (52) loaded by a spring (15) located at the rear end of the slide ssière (13) in order to couple with the protuberance (16) the striker (6), which is mounted so as to be able to pivot relative to the axis (17) and to be loaded by the spring (18), so that when the slide (13) moves linearly backwards, the pawl (14) couples with the protuberance (16) by pivoting the striker (6) backwards, opposing the force of the spring (18) until that by virtue of the curved trajectory of the protuberance (16), the latter escapes from the pawl (14) and the spring (18) pushes back the striker (6)   in order to cause an impact on the valve element (12).   6.- Pistol according to claim 5, characterized in that it comprises an automatic safety lever (39) connected to the trigger (5) so that this lever (39) interferes with the stop (41) fixed inside the slide (13) when the trigger (5) is in the inactive position, thus preventing movement of the slide (13) independent of the movement of the trigger (5) then is moved away from the path of the stop (41) by the trigger (5) when it is pressed, thereby allowing the displacement of the slide (13) by the trigger (5).  7.- Pistol according to claim 6, characterized in that the automatic safety lever (39) is united to the arm (40) mounted on the carcass (26) or to a part fixed thereon, so as to be able pivot relative to the axis (53), the arm (40) comprising a linear guide (54) in which the stud (55) moves together with the trigger (5), which is why the movement behind the trigger (5) causes the tilting of the automatic safety lever (39).   8. A pistol according to claim 4, characterized in that it comprises a helical spring (48) with compression arranged around the barrel (2) and compressed between the front inner end (13a) of the slide (13) and a surface of the support frame (26) or of a body joined thereto in order to push the slide (13) forward to a rest position.   9. A pistol according to claim 4, characterized in that the trigger (5) is an integral part of the trigger part (Sa) mounted on the trigger zone (4) so as to be able to move guided linearly in one direction parallel to the axis of the barrel (2), the trigger piece (Sa) of which includes the drive pins (44) which project laterally therefrom and interfere with the internal stops (45) of the slide (13) in order to drive the latter and a cavity (46) into which a lever (47) fixedly inserted is inserted   to the barrel (2) in order to drive the latter.   10.- Pistol according to claim 9, characterized in that there is a clearance between the lever (47) and the contact walls of the cavity (46) in order to delay the start of the movement of the barrel (2) relative to the start of the movement of the trigger (5) of the slide (13) and to guarantee a lower stroke of the barrel (2), both when the trigger (5) is pressed or when we release it.   11. A pistol according to claim 1, characterized in that it comprises a voluntary safety element (42) mounted externally at the upper part of the breech zone (7), so as to be able to pivot it voluntarily between a blocking position, in which the tooth (42a) of the voluntary safety element (42) fits into the housing (43) of the slide (13) and a release position, where the tooth (42a) is located outside the housing (43).   12. A pistol according to claim 1, characterized in that in the breech zone (7), the support carcass (26) is hollow and open at its lower part to receive the magazine (27) which comprises the magazine ammunition (8) with the chamber (3), a cavity (28) for housing the pressurized gas container (10), with a perforation needle (50) intended to perforate a gas outlet in the pressure container ( 10), a valve body (29) which defines the valve chamber (11) in which the valve element (12) is located and a movable protection (30) configured and provided to cover the actuating end ( 12a) of the valve member (12) when the magazine (27) is removed from the area cylinder head (7).   13.- Pistol according to claim 12, characterized in that the movable protection (30) is pushed by the spring (31) towards a protection position, the stop (32) being provided inside the breech zone (7) to make contact with the mobile protection (30) and the 18 2847665   maintain in a retracted position under the pressure of the spring (31) when the magazine (27) is installed in the cylinder head area (7), the locking device (33) which is located in the support carcass (26) being able to be actuated from the outside to hold the magazine (27) in the cylinder head area (7) under the spring thrust (31) and the movable protection (30) acting as an expeller by virtue of the spring thrust (31) when the blocking (33)   is released to extract the magazine (27).   14.- Pistol according to claim 13, characterized in that the magazine (27) comprises a lower cover (34) articulated relative to the axis (36), provided with an elastic closing tab (37), cover comprising an internal cavity intended to house and protect, in the closed position, the tightening butterfly (38)   of the pressurized gas container (10).   15. A pistol according to claim 14, characterized in that the lower cover (34) defines an outer surface which extends and ends at the lower part the outer surface of the hollow carcass (26) in the breech region (7) when the charger (27) is   installed in the cylinder head area (7).   16.- Pistol according to claim 1, characterized in that the carcass (26) has on both sides of the lower part of the barrel area (1) longitudinal grooves (65) capable of receiving different accessories.