SE469443B - COMPRESSOR DRIVE TOY GUN FOR PROJECTILES - Google Patents

Description

4-45 2 is a perspective view of an embodiment of the present invention; FIG. 2 is a cross-sectional view of the gun of the present invention; FIG. 3 is a perspective view of the air compression mechanism of the present invention; FIGS. 4 and 5 shows the operation of the air compression mechanism according to the invention, Fig. 6 is a perspective view of the robot-like projectile used in the present invention, Fig. 7 is a cross-sectional view of Fig. 6. Fig. 8 is a side view of the projectile of Fig. 7, and Figs. 9 and 10 show another embodiment of the projectile in Fig. 8.

Referring to Fig. 1, a gun body is shown consisting of two body parts 1, which are assembled by means of a plurality of screws. The space behind the barrel consists of a hollow space for accommodating an air compression mechanism and a trigger mechanism. The middle part of the body part of the air gun has a space ll for accommodating a revolver cylinder 2. A barrel 3 years mounted in front of the body part and through which a projectile is to be fired. One of the two body parts 1 has a side channel part 12. Below the space 11 a support shaft 13 is arranged for mounting a trigger 14. A handle 15 has an inner hollow space for use as a battery chamber 161 for receiving batteries and mounting a leaf spring switch 16. The switch 16 is connected to a lamp 17 on the outside of the barrel by means of wires. When the trigger 14 is actuated, the leaf spring switch 16 will close the circuit, as shown in Fig. 2, to turn on the lamp. The main components of the present invention are the air compression mechanism, the adjustment and impact mechanism and the design of the projectile, the components of which are described as follows: Referring to Fig. 1, the air compression mechanism is shown. which comprises a cylinder 4, a piston 41, a compression spring 42 and a rear cover 43. The front end of the cylinder 4 has an air hole 401, and two groups of fastening ears 402 are arranged on the outside to fasten the cylinder 4 with screws in the hollow the space in the body part. Below the middle part of the cylinder 4 there is an elongate hole 403, in addition there is a slot 404 under the cylinder 4 which extends from the middle part to the rear end of the cylinder 4. The piston 41 is mounted inside the cylinder 4, the front end of the piston 41 is closed and provided with a flexible flange seal 411. Below the front end of the piston is a stop hole 412, and the rear end of the piston is provided with a pull lever 413 projecting from the cylinder 4 out of the slot 404 to prevent the piston 41 from rotated. The inner part of the piston 41 has a hollow space in which a rod 414 and a compression spring 42 are mounted. The compression spring 42 is located in the piston and extends therefrom to the rear end of the cylinder 4 where it is limited at the rear by the rear cover 43 which is attached to the rear end of the cylinder 4. The compression spring 42 can only be compressed and extend axially inside and between the piston 41 and the cylinder 4. By means of the rod 414 the spring 42 cannot be bent when it is compressed. The rear cover 43 is used to close the rear end of the cylinder 4 as a stop element for the compression spring 42.

Fig. 3 shows a perspective view of the air compression mechanism and the function of the piston 41 which is clamped by means of the pull lever 413. Fig. 2 shows a cross-sectional view with the air compression mechanism in an assembled state and rest state. After the air compression mechanism is mounted in place, the air hole 401 of the cylinder 4 will be located opposite one of the cartridge chambers 21 of the turret cylinder 2. The trigger mechanism of the present invention comprises a trigger 14, a rocker arm 6 and a stop arm 5. The stop arm 5 is mounted on the frame part 1 by means of a screw 51 which is also used as a guide point for pivoting the arm 5. The rear end of the stop arm 5 is also used as a stop element 52 when moving upwards to an angle, since the stop the element 52 extends into the elongate hole 403 of the cylinder 4. The front end of the abutment arm 5 is used as a pressure element 53. Between the pressure element 53 and the screw 51 there is a screw 54 for holding one end of a tension spring 55. while the other the end of the spring 55 is attached to a screw on the body portion. The stop arm 5 will bring its stop element 52 upwards when pulling in the tension spring 55. The rocker arm 6 is mounted on the body part 1 with a screw 61 as a guide point for causing the arm 6 to rock. Arranged on the middle part of the rocker arm 6 is a screw 62 for holding a tension spring 63, the other end of the spring 63 being fastened to the body part 1 with a screw. the rocker arm 6 is caused to pivot downwards when the spring 63 is pulled. The free end of the rocker arm 6 has a round and smooth part for engaging a curved recess 141 on the upper rear part of the trigger 14. When the trigger 14 is actuated, the rocker arm 6 will be displaced upwards a certain distance. The upper end of the rocker arm 6 is connected to an operating arm 7, one end of which abuts against the free end of the rocker arm 6, while the upper end of the arm 7 has a perpendicularly projecting part which extends towards the barrel through the body part 1 and engages with a of the gear teeth 22, the function of which will be described below.

The gun construction comprises the turret cylinder 2 which has a plurality of cartridge chambers 21, i.e. through holes for guiding the projectiles 8. each of the gear teeth 22 at the rear end of the turret cylinder 2 corresponds to the position of the respective cartridge chamber 21. After mounting the turret cylinder 2 in the space 11 by means of the bearing pin 23 in engagement with the body part 1, the turret cylinder 2 can be driven for rotation, one of the cartridge chambers 21 being aligned in position opposite the air hole 401 of the air compression mechanism and the barrel 3. the turret cylinder 2 further comprises a plurality of slots 24 which are well fitted to the cartridge chambers 21 both in number and position, so that the flange 142 of the trigger 14 is retained in the slots 24 to stabilize the turret cylinder 2 at the time the trigger 14 is pressed and to enable precise alignment of the cartridge chambers 21 with the air hole 401 and the cylinder 4. When the pull lever 413 is pulled back. As shown in Figs. 4 and 5, the piston 41 is moved backwards until the abutment hole 412 on the front part of the piston 41 lies opposite the elongate hole 403 of the cylinder 4. Thereafter, the abutment element 52 of the abutment arm 5 will be inserted into the abutment hole 412 to prevent the piston 41 from moving axially. The compression spring 42 between the piston 41 and the rear cover 43 assumes a compressed state. the cylinder 4 sucks in an amount of air from the air hole 401 to be later compressed to produce a powerful compressive force.

When the shutter-release button 14 is retracted. As shown in Fig. 5, the rear edge of the trigger 14 will displace the pressure member 53 of the stop arm 5 so that it pivots an angle around the screw 51 as a pivot point. As a result, the abutment part 52 of the arm 5 moves downwards and out of the abutment hole 412 of the piston 41 to release it, whereby the compression spring 42 is immediately released so that the piston 41 is displaced rapidly forward to compress the air inside the cylinder 4. The compressed air flows out the air hole 401 for propelling the projectile into the cartridge chamber 21 for firing. at the same time as the trigger 14 is retracted, the free end of the rocker arm 6 is moved upwards a certain angle for displacing the upper end of the operating arm 7 upwards to cause the turret cylinder 2 to rotate one step due to the upper end engaging the gear tooth. 22. Next, one of the cartridge chambers 21 will be in the center of the air hole 401, the flange 142 of the trigger 14 lying in the slot 24 to lock the turret cylinder 2 when the trigger 14 is pressed and to allow the cartridge chamber 21 to be precisely aligned with the air hole 401 of the cylinder 4. as soon as the trigger 14 is thus pressed, the operating arm 7 will actuate the turret cylinder 2 so that it rotates one step for aligning a cartridge chamber 21 with the air hole 401, and this thanks to the rocker arm 6 engaging the trigger 14 and the operating arm 7 is activated first. Thereafter, the stop arm 5 is activated to cause the piston 41 to compress the air. After the release of the trigger 14, the rocker arm 6 and the stop arm 5 will return to their respective previous positions thanks to the tension springs 63 and 55, whereby the next operating operation can be performed. The operating arm 7 is provided with a return spring 71 for pulling the arm back to its original standby position. When the trigger 14 is pressed, the trailing edge of the trigger will actuate a leaf spring switch 162 to engage a lamp circuit, the lamp turning on as the gun fires the projectiles to thereby increase the pleasure of playing with the gun.

The projectile 8 according to the present invention is shown in Fig. 6.

The projectile 8 comprises a conical part 81, a trumpet-shaped rear part 82 and a plurality of stabilizing flanges 83 which are arranged symmetrically around the outside. Inside the projectile is an air chamber 84 whose front end is closed, while the rear end is open and communicates with the trumpet-shaped rear part 82. When the projectile 8 is loaded in the cartridge chamber 21 of the turret cylinder 2, the trumpet-shaped rear part 82 is the only part abutting the inside of the cartridge chamber 21 for holding the projectile 8 in position. The other surface portions of the projectile 8 do not abut against the inside of the cartridge chamber 21, as shown in Fig. 2, whereby the frictional resistance is minimized when firing the projectile. The trumpet-shaped rear part of the projectile 8 can completely cover the air hole 401 and thereby the powerful air pressure generated by the piston 41 can be introduced into the air chamber 84 in its entirety to drive the projectile 8 out of the barrel. Fig. 7 shows a cross-sectional view of the projectile 8. In order to make the projectile 8 largely resemble a robot, the front conical part 81 of the projectile carries an explosive charge 85, as shown in Fig. 8. When the projectile 8 hits a hard object, such as the ground or a wall, the impact force causes the explosive charge 85 to cause a bang similar to that of a real firearm. To protect children from being injured while playing with this companion, the conical portion 81 of the projectile 8 may be provided with a protective cap 86 of soft rubber, as shown in Figs. 9 and 10. The rear end of the protective hood 86 has a suitable hole 861 to facilitate mounting of the hood 86 on the conical part 81. Since the protective hood 86 is made of soft rubber, it can not cause any damage if the shot hits any part of a human body. In other words, the present invention proposes a safe toy.

The pneumatic toy gun according to the present invention is to be regarded as a new construction. By a logical assembly of the air compression device and the trigger mechanism, the gun can fire projectiles loaded into the turret cylinder one by one to meet the requirements of a toy, i.e. to provide pleasure and fun effects. The front end of the projectile is equipped with an explosive charge or a soft protective cap to allow the projectile to generate a blow or hit a person's body without causing any damage and this with greater pleasure. The present invention can therefore be considered as a perfectly pneumatic toy gun.

Claims (2)

10 15 20 25 30 35 Patent claim A compressed air-powered toy pistol for firing projectiles (8), which essentially comprises two body parts (1), a feV ° 1VeICY1íHdêr (2). a barrel (3), an air compression mechanism (4. 41. 42. 43), a trigger mechanism (14, 5, 6), a plurality of robot-like projectiles (8) and a lighting device (17), the two body parts (1) are connected to each other to form a gun body, which body has a hollow space for mounting the air compression mechanism and the trigger mechanism, the middle part of the body having a continuous hollow space (11) for mounting the turret cylinder (2). while an outer barrel portion of the body houses the barrel (3). and a handle part (15) of the body has a hollow space in the form of a battery chamber (16fi), a lamp (17) being mounted on a suitable part of the gun body, while one of the body parts (1) has a side channel part (12). extending rearwardly from the body, the turret cylinder (2) having a support pin (23) in the central portion of the body and projecting from both ends of the cylinder for use as a pivot joint, the turret cylinder (2) having a plurality of cartridge chambers (21) ) loaded with a respective projectile (8), the rear end of the cylinder (2) being provided with a plurality of gear teeth (22) corresponding to the number and position of the cartridge chambers (21), one of the cartridge chambers (21) being opposite the barrel (3) and an air hole (401) of the air compression mechanism, which barrel (3) is mounted in the outer pipe part and is located opposite the air hole (401) of the air compression mechanism, and the light device comprises a leaf spring switch (15), kit, turn in the switch (15) - the battery chamber (161) and is electrically connected to the lamp lamp (17) and a battery is mounted above (17) and the battery pack by means of conductors, the lamp (17) being lit when the shutter (14) is retracted, k ä characterized in that the air compression mechanism comprises a cylinder (4). 60 KOIV (41). a CrYCKflåÜe! (42) and a rear cover (43), the cylinder (4) having two groups of flanges (402) for facilitating the mounting of the cylinder (4) in the pistol body, the front end of the cylinder has said air hole (401) communicating with the through-hollow space (11) of the gun body, while the two sides of the Cylinder (4) have a slot (404) extending from the central portion of the cylinder to its rear end. and an elongate hole (403) provided below the central portion of the cylinder (4), the piston (41) being mounted inside the cylinder (4) and the front end of the piston being sealed and provided with a flexible flange seal (411). ), while the rear end of the piston has an open and deep hole in which a rod (414) and the compression spring (42) are mounted, and the rear side of the piston (41) has a pull lever (413) projecting from the slot (404) in the cylinder (4) and out of the side channel part (12) of the gun body. a stop hole (412) is formed below the front end of the piston (41), while the compression spring (42) is mounted in the cylinder (4) and slid over the rod (414), the front end of the compression spring (42) being inserted into the rear hollow end of the piston (41), while the rear end of the spring abuts against the rear cover (43) of the cylinder to constantly exert a compressive force on the piston (41), the rear cover (43) being mounted on the rear end of the piston. the cylinder (4) and at the rear end of the gun body, the trigger mechanism comprising a trigger (14), a stop arm (5), a rocker arm (6) and an operating arm (7), the trigger (14) being mounted in the lower part of the hollow space in the gun body by means of a support shaft (13), which upper rear edge of the trigger (14) has an arcuate recess (141), the stop arm (5) being pivotally mounted on the gun body by means of a screw (51) on the center the portion of the arm, the rear end of which has an upwardly bent portion (52) which is used as a stop harness when the abutment element (52) extends into the elongate hole (403) of the cylinder (4), while the front end of the abutment arm has a downwardly curved part which is used as a sliding element (53), wherein between the sliding element (53) and the screw (51) one end of a tension spring (55) is mounted in position on another screw (54), while the other end of the tension spring is attached to a screw on the gun. The frame member so that the abutment member (52) is always held in an upward position after being pushed back each time, one end of the rocker arm (6) being secured with a screw (61) to the gun body below the abutment arm ( 5), while the free end of the rocker arm has a round and smooth part which engages with the arcuate recess (141) on the trigger (14). while on the middle portion of the rocker arm (6) an additional tension spring (63) is attached by means of a screw (62), the other end of the tension spring (63) being fixed in the same place as the tension spring (55) attached to the stop arm (5). wherein the free end of the rocker arm (6) is always biased downwards so that the arm returns to its first position after each sliding movement, while the operating arm (7) is attached to the free end of the rocker arm (6) and has an upper end directed perpendicularly therefrom and in the direction of the barrel (3) and extends through the body part to engage with one of the gear teeth (22) on the turret cylinder (2), whereby in accordance with the above construction the piston (41) of the air compression mechanism can be retracted a certain distance by means of the lever (413) until the abutment hole (412) of the piston (41) and the elongate hole (403) of the cylinder (4) are opposite each other and then the abutment element (52) of the abutment arm (5) is inserted into the piston (4) to hold this in position, after which. when the shutter-release button (14) is affected. the rocker arm (6) is displaced upwards to actuate the operating arm (7) so that it moves upwards to rotate the turret cylinder (2) in a rotational step movement, whereby when the trigger (14) is kept fully retracted the sliding element (53) of the stop arm (5) is moved upward to cause the abutment member (52) of the abutment arm (5) to move downward to release the piston (4U) which is thereby rapidly moved forward to produce a powerful air blow out of the air hole (401) of the cylinder (4) to thereby firing the projectile (8) from the barrel (3). Toy gun according to claim 1, characterized in that the projectile (8) consists of a light plastic material formed with a front end having a conical part (81), while the rear end is formed into a trumpet-shaped tail (82) , the body part of the projectile having a plurality of stabilizing flanges (83) which are uniformly spaced apart, and the inside of the projectile has an air chamber (84) whose front end is closed, while the rear end of the air chamber communicates with the trumpet-shaped tail (82), and the front end of the projectile carries an explosive charge (85) or has a soft protective cap (86) mounted thereon.