FR2631557A3 - Toy of the compressed-air revolver type for launching projectiles similar to a missile - Google Patents

Abstract

The body 1 contains a revolving cylinder 2 having chambers 21 for receiving projectiles 8 having a hollow body capable of being located opposite a hole 401 for the exit of air from an air mechanism comprising a cylinder piece 4 in which a piston 41 having a lateral handle for rearward pulling may be held in its position of compression of a spring 42 by a stop lever 5 which can be actuated with the aid of a trigger 14, which enables the piston 41 to compress and violently expel, through the hole 401, the air which, in turn, projects the projectile 8 outside the barrel 3.

Description

 The invention relates to a toy of the type of a compressed air revolver for launching projectiles, in particular to a revolver comprising an air compression mechanism and a trigger mechanism situated inside a body of revolver. When a pull is exerted on the trigger, a piston compresses the air quickly to push the projectile out of the barrel and to let the player imagine that a real projectile was launched.

 Commercial children's toys can be of many different types: for example, there are various kinds just for revolvers or pistols. Most of them can simply produce sound or light and sound. Some of them may be able to launch light proectiles using an explosive or a spring; pistols or revolvers designed to be toys and using an explosive can only launch projectiles at a short distance while pistols or revolvers using a spring as a launching force quickly fail due to metal fatigue.

 Given the above mentioned disadvantages of known toys, the inventor has developed an air revolver which is capable of launching a profiled projectile to be similar to a missile. According to a characteristic of the invention, an air compression mechanism is installed inside the body of the revolver and this mechanism can compress air until giving it a sufficiently high pressure. The pistol of the invention also includes a trigger mechanism for launching the projectile as soon as a trigger is fired. A toy according to the invention has a high degree of fun and is completely safe for the player.

We will now give, by way of example only, a description of an exemplary embodiment of a revolver in accordance with the invention in order to clearly understand its characteristics and advantages. Reference will be made to the attached sins in which:
Fig. 1 is an exploded view of a revolver according to the invention,
Fig. 2 is a sectional view through a plane passing through the general axis of the revolver,
Fig. 3 is a perspective view of the air compression mechanism of a gun according to the invention,
Figs. 4 and 5 illustrate the operation of the air compression mechanism,
Fig. 6 is a perspective view of a missile-like projectile using the revolver of the invention,
Fig. 7 is a sectional view through a plane passing through the longitudinal axis of the projectile of FIG. 6,
Fig. 8 is a side view of the projectile of the
Fig. 7,
Figs. 9 and 10 show alternative embodiments of the projectile of Fg. 7 and 8.

 Referring to FIG. 1 we can see a revolver body 1 composed of two parts which are assembled to each other using a plurality of screws. The space behind the barrel is a hollow volume for mounting, on the inside, an air compression mechanism and a trigger mechanism. The middle part of the body of the air revolver has a space 11 for mounting a rotating barrel 2. A barrel 13 is mounted at the front of the body and a projectile can be fired by this barrel. One of the two parts of the body 1 has a lateral groove 12. In the space 11, there is a trigger 14, around a support axis 13. The stock 15 has an interior volume used as a chamber 16 to receive a battery or batteries 161 and a switch 162 of the type having Xm leaf spring. This switch is connected using wires to a bulb 17 located outside the barrel. When the trigger 14 is actuated, the switch closes the circuit and lights up the bulb 17 as can be seen in FIG. 2.

 The main features provided by the invention are the air compression mechanism, the positioning and stopping mechanism and the structure of the projectile which will now be described more particularly.

 Fig. 1 shows the air compression mechanism which comprises a cylinder 4, a piston 41, a compression spring 42 and a rear plug 43. The front end of the cylinder 4 has an air passage hole 401 and there are on the outer surface of the cylinder two sets of ears 402 which allow this cylinder 4 to be fixed using screws in the hollow space of the body. Below the middle part of the cylinder 4, there is an elongated hole 403; there is also under the cylinder 4 a slot 404 which extends from the middle part to the rear end of the cylinder 4. A piston 41 is mounted inside the latter, the front end of the piston 41 is closed and it carries a flexible sealing pad 411. Under the front end of the piston there is a stop hole 412 and the rear end of the piston is provided with a pull handle 413 which s extends outside the cylinder 4 beyond the slot 404 so as to prevent the piston 441 from rotating in the radial direction. The internal part of the piston 41 is a hollow volume in which are mounted a rod 414 and a compression spring 42. The latter is introduced into the piston and it extends outside to the rear end of the cylinder 4; it is limited therein by means of a rear plug 43 fixed to the rear end of this cylinder 4; a compression spring 42 can only be compressed and it can extend axially internally between the piston 41 and the cylinder 4. Thanks to the rod 414 which it surrounds, the spring 42 cannot bend when it is during compression. The cap 43 is used to close the rear end of the cylinder 4 as well as as a means of stopping the compression spring 42.

 Fig. 3 is a perspective view of the air compression mechanism and it also shows an operating position of the piston 41 ready to be pulled using the pull handle 413. FIG. 2 shows, in section, the assembled state and the position of the air compression mechanism. When this mechanism is put in place in the body of the revolver, the air hole 401 of the cylinder 4 is in alignment with any one of the chambers 21 for projectiles of the rotating barrel 2.

 The triggering mechanism according to the invention comprises a trigger 14, an oscillating lever 6 and a stop lever 5. The latter is mounted on the body 1 using a screw 51 also used as the pivot axis of this the sink. The rear end portion of the lever 5 also serves as a stop element 52 after its upward movement of a certain anal until it enters the elongated slot 403 formed in the cylinder 4. The opposite front end portion of the stop lever 5 serves as a pushing element 53. Between the pushing element 53 and the screw 51 there is a screw 54 which is used to attach one end of a tension spring 55 however that the other end of this same spring 55 is attached with a screw to the body of the revolver. The stop lever 5 has its end portion 52 serving as a stop element which moves upwards when this lever is pulled by the tension spring 55. The oscillating lever 6 is mounted on the body 1 by means of a screw 61 serving as a pivot axis so that this lever can oscillate. The middle part of the oscillating lever 6 has a screw 62 which is used to attach one end of a tension spring 63 while the other end of the latter is attached to the body 1 by means of a screw; the oscillating lever 6 pivots downward under the effect of the traction of the spring 63. The free end of the oscillating lever 6 is rounded and regular in order to engage in a curved recess 141 formed in the upper rear part of the trigger 14; when the trigger is pulled, the oscillating lever 6 is pushed up over a certain distance. The upper end of the oscillating lever 6 is mounted to cooperate with a drive lever 7 whose lower end is in contact with the free end of the oscillating lever 6 while the upper end of this lever 7 is provided with a right-angled part which extends in the direction of the barrel while crossing the body 1 in order to be able to engage with one of the teeth 22 of the groove provided on this barrel and whose role will be explained below.

 In the structure of the revolver described above, the revolving barrel 2 has a plurality of chambers 21 for projectile, that is to say through holes to contain the projectiles 8. Each of the drive teeth 22 located on the rear face of the barrel 2 is in correspondence with a respective chamber 21. When the barrel 2 has been mounted in the space 11 by means of a carrying pivot 23 engaged freely in rotation in the body 1, the barrel 2 can be driven to rotate; in this case, one of the chambers 21 can be in alignment with the air hole 401 of the air compression mechanism and with the barrel 3.

 In addition, the barrel 2 comprises a plurality of slots 24 suitably arranged in correspondence with the chambers 21, both in number and in position; so that an ear 142 provided on the trigger 14 is inserted into one of the slots 24 in order to immobilize the barrel 22 when the trigger 14 is actuated and so that this chamber 121 is exactly in correspondence with the hole air 401 from cylinder 4. When the pull handle 413 has been pulled back as seen in Figs. 4 and 5, the piston 41 has been moved back to an extent such that the hole stop 412 located in the extreme front part of the piston 41 is in alignment with the elongated hole 403 of the cylinder 4; at this time the stop member 52 of the stop lever 5 enters the stop hole 412 to prevent the piston 41 from being moved in the axial direction. The compression spring 42 located between the piston 41 and the rear plug 43 is then in the compressed state ;. and the cylinder 4 has worse by the air hole 401 of the air which will be compressed later to generate a pushing force.

 In Fig. 5 it can be seen that when the trigger 14 is being pulled, the rear edge of this detent pushes the thrust release or stop lever 5 and causes this lever to rotate by a certain angle around the screw 51 pivot servant; it follows that the stop element 52 of the lever 5 moves downwards and leaves the stop hole 412 of the piston 41 to release the latter; the compression spring 42 is made immediately free to rapidly push the piston 41 forward to compress the air contained in this cylinder. Air under high pressure is projected through the air hole 401 to expel the projectile contained in the chamber 21 and to eject it outside the barrel. Simultaneously, when the trigger 14 is pulled, the free end of the oscillating lever 6 moves upwards by a certain angle until pushing the upper end of the driving lever 7 upwards by a certain angle so as to drive the barrel 12 and to rotate it a step (because the upper end of this lever is engaged with a drive tooth 22); then one of the chambers 21 is brought into alignment with the air hole 401. The lug 142 of the trigger 14 is retained in one of the slots 24 to stabilize the barrel 2 when this trigger 14 reaches the end of its travel and so that the chamber 21 is precisely aligned with the air hole 401 of the cylinder 4. In other words, when the trigger 14 is pulled once, the drive lever 7 is actuated and it drives the barrel 2 to rotate it one step so that a chamber 21 comes into alignment with the air hole 401 (because the oscillating lever 6 is engaged with the trigger 14 and the drive lever 7 is actuated first); then the stop lever 5 is actuated to cause the piston 41 to compress air. When the trigger 14 has been released, the oscillating lever 6 and the stop lever 5 return to their respective initial positions due to the traction of the springs 63 and 55, and the following operation can take place. The drive lever 7 is mounted with a return spring 71 which pulls it back to its initial and waiting position. When the trigger 14 is pulled, the rear edge of this trigger actuates the switch 162 and turns on the bulb so that it is on as long as the revolver fires a projectile, which increases the fun when someone plays with this toy.

 A projectile 8 according to the invention is visible in FIG. 6; this projectile has a frustoconical front part 81, a flared rear part 82 and several stabilizing fins 83 which are arranged symmetrically on its outer surface. Inside the projectile is an air chamber 84 whose front end is closed and whose rear end is open in communication with the flared part 82. When the projectile 8 has been loaded into a chamber 81 of the barrel 2, the flared rear part 82 is the only part which is in contact with the interior surface of the chamber 83 to hold this projectile 8 in position; the other parts of the surface of the projectile 8 are not in contact with the interior surface of the chamber 21, as can be seen in FIG. 2, so that the resistance created by friction when the pojectile is pulled is minimized. The flared portion 82 of the projectile 8 can completely cover the air hole 401 and therefore the pressurized air generated by the piston 41 completely enters the chamber 84 to drive the projectile out of the barrel. FIG. 7 is a sectional view of the projectile 8 to show that the latter which is analogous to a rocket can also look very much like a missile when the frustoconical front part 81 is provided with an explosive charge as shown in FIG. 8. When the projectile 8 transformed into a missile hits a hard object such as the surface of the ground or a wall, the impact force causes the explosive charge 85 to generate an explosion sound very similar to that of a real weapon. In order to protect children from harm when they play with the toy, the frustoconical part 81 of the projectile 8 is provided with a protective cap 86 made of soft rubber, as shown in FIGS. 9 and 10. The rear end of the protective cap 86 has a hole 861 which facilitates its mounting on the frusto-conical part 81. Since the protective cap 86 is made of soft rubber, it does not cause any injury when the projectile is fired on a part of a person's body; in other words, the invention is a safety toy.

 It will be noted that the air revolver according to the invention is new in its structure. Following a logical assembly of the air compression mechanism and the trigger mechanism, the revolver can be loaded with projectiles similar to a missile and when the barrel has been fully loaded, the revolver allows them to be fired one after the other, and with the greatest fun. When the front end of projectiles is provided with either an explosive charge or a protective cap, the projectile can either generate an explosion noise or strike a person without causing harm; therefore, the revolver of the invention is an air pistol perfect as a toy.

Claims (6)

 1. Toy of the type of an air pistol for launching projectiles comprising two parts fixed to each other to form a body, this body having a hollow space for mounting a compression mechanism of air and a trigger mechanism and the middle part of this body having an opening for mounting a rotating barrel, and a barrel extending the body, the latter having a hollow stock to contain a source of electricity and the revolver being provided with an electric bulb connected to the electric current source by wires from a switch, the barrel having a plurality of chambers for containing projectiles and its rear end being provided with a plurality of teeth drive in correspondence with said chambers and with the alignment position of one of them with the barrel and with an air hole of the air compression mechanism, characterized in that the air compression mechanism includes a cylinder re (4) having at its front end an air hole (401) placed in communication with the hollow volume of the body (1), the two sides of this cylinder (4) having a slot (404) extending from from the middle part of this cylinder to its rear end and an elongated hole 403) being provided in its middle part, a piston (41) being mounted inside this cylinder (4) and the front end of this piston being provided with a flexible sealing collar (411) while its rear end has an opening and a hole inside in which are installed a rod (414) and a compression spring (42), the side close to the closed end of the piston (41) being provided with a pull handle (413) extending through the slot (404) of the cylinder (4) and through a lateral groove (12) provided in the body (1), a stop hole (412) being formed in the side wall of the piston (41) near its closed end, the compression spring (42) being introduced into the cylinder (4) at the rod turn (414) and the rear end of this spring  penetrating inside a rear closing cover (43) mounted on the corresponding end of the cylinder (4), at the rear of the body (1), to maintain a return thrust on the piston (41), the trigger mechanism comprising a trigger (14) mounted in the lower part of the hollow space of the body (1) by means of a pivot axis and the rear upper edge of this trigger having a curved recess (141), a stop lever (5) being pivotally mounted inside the body (1) by means of a screw (51) passing through the middle part of this lever, the rear end of the latter having a raised part serving stop element (52) following its upward movement by a certain angle due to its entry into the interior of the elongated slot (403) of the cylinder (4), the front end of this stop lever (5) having a part inclined downwards and serving as a pushing element, a tension spring (55) being hooked on the one hand on this stop lever ( 5) between said screw (51) and the pushing element, while the other end of this same tension spring (55) is attached to the body (1), this tension spring (55) always having the effect of recalling the stop member in the upper position each time it has been moved down, the trigger mechanism further comprising an oscillating lever (6) one end of which is pivotally mounted using a screw inside the body (1) to cooperate with the stop lever (5), the free end of this oscillating lever (6) having a rounded part engaged in said curved recess (141) of the trigger (14) and the part median of this oscillating lever (6) being provided by means of a screw of a tension spring (63) having the effect that said oscillating lever (6) is always pulled down so that it returns to its position initial each time it has been pushed, the trigger mechanism further comprising a drive lever (7) fixed to the free end of the oscillating sinker (6) and having an upper end curved at right angles to extend towards the barrel (2) and engaging through an opening in the body (1) to cooperate with one of the drive teeth (22) of said barrel (2).  2. Revolver according to claim 1, characterized in that each projectile (8) is made of molded light plastic material with the configuration of a missile having a frustoconical front end (81) and a rear end having a flared part (82) , the body of this projectile being provided with a plurality of stabilizing fins (83) spaced from one another and the interior of this projectile having an air chamber (84) whose front end is closed while its rear end is in communication with the flared part (82).  3. Revolver according to claim 1, characterized in that the body (1) contains said switch of the electrical circuit mounted near the trigger to be actuated by the latter when this trigger is fired for the departure of a projectile.  4. Revolver according to claim 1, characterized in that the cylinder (4) has two opposite lateral ears (413) facilitating its mounting and fixing inside the body (1).  5. Revolver according to claim 2, characterized in that the front end of the projectile is provided with an explosive charge (85).  6. Revolver according to claim 2, characterized in that the projectile has a protective cap (86) of flexible plastic material mounted on the frustoconical front end (81).