Patent Application
20110041824
1. Field of the Invention
The present invention relates to toy projectile launchers and more particularly to a pump style toy projectile launcher employing a central shaft cocking mechanism extending through a projectile device for rapid fire projectile launching through quick, simple and fun cocking and triggering mechanisms which are easy to actuate.
2. Background of the Invention
Toy projectile launchers which shoot or launch projectiles have been popular for many years. These launchers have been designed over the years to launch projectiles one at a time in a reload mode, or rapid fire mode through various methods including magazines, indexing wheels, and drop down chambers which continuously feed projectiles into a gun barrel. Additionally, many of the launchers utilize bursts or streams of pressurized or compressed fluid as a convenient and reliable force in which to eject the toy projectiles.
Various mechanisms for storing and delivering a burst or stream of compressed air are known to include manual and automated air pumps, motor driven air pumps, compressed gas lines, or canisters of compressed gas, etc., employed in toy launchers. These include, e.g., U.S. Pat. No. 7,287,526 to Bligh et al. for “Toy projectile launcher with slidable outer cylinder and stationary inner compression member” issued Oct. 30, 2007, U.S. Pat. No. 7,267,118 to Eddins et al. for “Toy system with detachable weapons” issued Sep. 11, 2007, U.S. Pat. No. 6,439,216 to Johnson et al. for “Automatic pressurized fluid gun” issued Aug. 27, 2002, U.S. Pat. No. 5,787,869 to Johnson et al. for “Compressed air toy gun” issued Aug. 4, 1998.
Further means for generating and storing the mechanical energy needed to launch the projectiles may be in the form of a cocked spring mechanism, with a piston or plunger for compressing a column of air, a chamber or fluid reservoir holding air in a compressed state, and a piston and cylinder assembly with a movable cylinder generating a burst of compressed air when released to slide over the stationary piston, all known to propel the projectile upon release of the stored mechanical energy. Manual air pumps are mechanically differently from motor driven or continuous air lines or canisters because manual air pumps must also include mechanisms for manually charging or cocking the toy launcher before it can be fired.
Toy launchers employing manual air pumps are very well known in the art and reliably deliver a burst of compressed air to launch toy projectiles. Known manual air pumps are seen to employ the cocked spring mechanism, fluid reservoir, and piston and cylinder assemblies as described above. Cocking the compression spring, piston, plunger, or cylinder of the known manual air pumps includes various mechanisms manually actuated by a user.
For example, it is known to employ a breech slide mounted to an outside surface of a gun frame to retract a spring loaded piston and piston rod within a cylinder to a cocked position. The breach slide is secured to the piston rod and slides longitudinally upon the upper rearward part of the frame portion of the toy gun above the handle. The breach slide is pulled by a user away from the muzzle of the toy gun, pulling the piston rod and piston to a cocked position. The breach slide is known only to reside on the outside surface of the gun housing for manual access by a user and cannot extend through the projectile chamber.
Another known cocking mechanism includes a grip mounted to slide on the outside surface of a barrel of a toy gun. The grip is connected to a ring encircling a casing contained within the barrel and including a compression spring. The grip is pulled toward the muzzle of the barrel by a user moving the casing toward the muzzle compressing and cocking the spring. An additionally known cocking mechanism includes a slide member mounted to an outside surface of a toy gun and operable to slide along the housing to cock the spring loaded cylinder. The slide member includes a rod which contacts a shoulder of the cylinder when the slide is drawn away from the muzzle of the gun by a user to cock the slidable cylinder on the fixed piston.
Significantly, known toy launchers do not include a cocking mechanism capable of extending through a projectile device. It would be desirable to provide a central shaft cocking mechanism extending through a projectile device for manually cocking a spring loaded cylinder on a fixed piston enabling the toy launcher to rapid fire two or more loaded projectiles. The cocking mechanism extending through the projectile device facilitates a mechanical communication between a trigger mechanism and the projectile device capable of advancing the device to a firing position with the same trigger pull used to release the cocked cylinder and launch the projectile.
The present invention addresses the shortcomings of the prior art to provide a toy projectile launcher which extends a central cocking mechanism through a projectile device to simply yet uniquely cocks the piston and cylinder assembly and position the trigger mechanism for the rapid fire of two or more projectiles. A shaft extending through the projectile device for engagement with the cylinder is capable of moving the cylinder to a cocked position and facilitates quick, simple and fun cocking and triggering mechanisms for rapid fire projectile launching.
In one embodiment of the invention, the toy for launching two or more projectiles includes a housing assembly, a projectile device disposed about the housing and including two or more projectiles, a piston and cylinder assembly, wherein the piston is secured to the housing in a fixed position and the cylinder is slidably mounted on the piston, a cocking mechanism in mechanical communication with the piston and cylinder assembly including a shaft extending through the projectile device for engagement with the cylinder capable of moving the cylinder to a cocked position, and a trigger mechanism secured to the housing. The trigger mechanism is capable of advancing the projectile device to a firing position and capable of releasing the cylinder from a cocked position to advance the cylinder on the fixed piston and discharge a burst of compressed air launching a projectile.
In another embodiment of the invention, the cylinder further includes a cocking shoulder and the shaft further includes a charging contact element disposed at an end opposite the projectile device for engagement with the cocking shoulder. In another embodiment, the cocking mechanism further includes a cocking handle disposed on the shaft at an end opposite the charging contact element and the shaft is biased away from contact with the cylinder toward an uncocked position.
In another embodiment of the invention, the projectile device includes a barrel rotatably disposed on the shaft having multiple projectile compartments and the barrel further facilitates the delivery of discharged compressed air from the piston and cylinder assembly to each projectile compartment. In yet another embodiment, the rotatable barrel further includes first and second coaxial barrels disposed adjacent each other about the shaft for facilitating the advancement of the barrel and alignment of a projectile compartment to a firing position when the trigger mechanism is actuated.
In still another embodiment of the invention, the first barrel includes notches with an angled end disposed around the outer periphery defining a first set of slots with an angled end and wherein the second barrel includes notches with an end angled in a reverse direction of the first notches disposed around the outer periphery and offset from the first notches to define a second set of slots with an end angled in a reverse direction positioned offset from the first set of slots. In yet another embodiment, the trigger mechanism includes a trigger element and an advance lever capable of mechanically communicating with the first and second sets of slots to align the projectile compartments to a firing position when the trigger element is actuated capable of launching projectiles in a rapid fire mode.
In yet another embodiment of the invention, the advance lever includes an elongated protrusion at an end opposite the trigger element capable of traveling from a second slot to an offset first slot rotating a projectile compartment to a firing position with a half click trigger pull, launching the projectile with a further full click trigger pull, and traveling to a next sequential second slot rotating a next sequential projectile compartment out of firing position with a trigger release. In yet another embodiment, an elongated barrel is included and extends from the housing aligned generally parallel to the shaft and aligned with each projectile compartment when in the firing position, such that each projectile passes through the barrel when launched.
In another embodiment of the invention, a method for launching a projectile from a toy includes the steps of providing a housing assembly, disposing a projectile device with two or more projectiles about the housing assembly, providing a piston and cylinder assembly, securing the piston in a fixed position to the housing and mounting the cylinder to slide back and forth over the piston, and providing a cocking mechanism in mechanical communication with the piston and cylinder assembly by passing a shaft through the projectile device for engagement with the cylinder facilitating the launch of two or more projectiles. Further, manually pushing the shaft into the housing assembly and into contact with the cylinder assembly forcing the cylinder to a cocked position, and activating a trigger mechanism capable of advancing the projectile device to a firing position and releasing the cylinder from a cocked position, advancing the cylinder over the fixed piston discharging a burst of compressed air launches the projectiles from the projectile device.
In still yet another embodiment of the invention, the cylinder further provides a cocking shoulder extending therefrom and the cocking mechanism further provides a charging contact element disposed on the shaft for engagement with the shoulder for moving the cylinder into a cocked position. In another embodiment, the cocking mechanism further provides a cocking handle disposed on the shaft at an end opposite the charging contact element, and in another embodiment, the step of biasing the shaft toward an uncocked position by biasing the contact element away from the cylinder is included.
In another embodiment of the invention, the projectile device further provides a rotatable barrel having multiple projectile compartments each capable of rotatably aligning with the piston and cylinder assembly in a firing position, and facilitating the delivery of compressed air discharged from the assembly to each projectile in each projectile compartment. In another embodiment, the step of advancing the rotatable barrel to rotatably align each projectile compartment to the firing position when the trigger mechanism is actuated is included.
In still yet another embodiment of the invention, a toy for launching two or more projectiles includes a housing assembly; a rotatable projectile device disposed about the housing and including two or more projectile chambers each including at least one projectile, a piston and cylinder assembly, wherein the piston is secured to the housing in a fixed position and the cylinder is slidably mounted on the piston, a cocking mechanism in mechanical communication with the piston and cylinder assembly including a shaft extending through the rotatable projectile device for engagement with the cylinder capable of moving the cylinder to a cocked position, and a projectile rotating mechanism secured to the shaft at the projectile device includes first and second coaxial barrels disposed adjacent each other about the shaft for facilitating the advancement of the rotatable projectile device and alignment of a projectile compartment to a firing position. A trigger mechanism is secured to the housing in mechanical communication with the projectile rotating mechanism capable of rotating the projectile device and releasing the cylinder from a cocked position to advance the cylinder on the fixed piston and discharge a burst of compressed air launching the projectiles in a rapid fire mode.
In yet another embodiment of the invention, the cylinder includes a cocking shoulder and the shaft includes a charging contact element disposed at an end opposite the projectile device for engagement with the cocking shoulder, and the shaft further includes a cocking handle disposed at an end opposite the charging contact element for manually charging the piston and cylinder assembly. In another embodiment, the projectile device includes a barrel rotatably disposed on the shaft having multiple projectile compartments and the barrel further facilitates the delivery of discharged compressed air from the piston and cylinder assembly to each projectile compartment.
In still yet another embodiment of the invention, the first barrel of the projectile rotating mechanism includes notches with an angled end disposed around the outer periphery defining a first set of slots with an angled end and the second barrel of the projectile rotating mechanism includes notches with an end angled in a reverse direction of the first notches disposed around the outer periphery and offset from the first notches to define a second set of slots with an end angled in a reverse direction and positioned offset from the first set of slots. In another embodiment, the trigger mechanism includes a trigger element and an advance lever capable of mechanically communicating with the first and second sets of slots to align projectile compartments to a firing position when the trigger is actuated capable of launching projectiles in a rapid fire mode.
For the purpose of facilitating an understanding of the inventions, the accompanying drawings and description illustrate a preferred embodiment thereof, from which the inventions, structure, construction and operation, and many related advantages may be readily understood and appreciated.
The following description is provided to enable those skilled in the art to make and use the described embodiments set forth in the best modes contemplated for carrying out the invention. Various modifications, however, will remain readily apparent to those skilled in the art. Any and all such modifications, equivalents, and alternatives are intended to fall within the spirit and scope of the present invention.
A toy projectile launcher 10, as seen in
The projectile device 16 includes two or more projectiles 17, and in the present described embodiment, as seen in
The piston and cylinder assembly 32 is disposed about the housing 12 and generates a burst of compressed air, as mentioned above, to launch each projectile from the projectile device 16. The piston 34 is secured to the housing 12 in a fixed position and the cylinder 36 is slidably mounted on the piston. In the present described embodiment, the cylinder 36 has a hollow interior and a cocking shoulder 37, and slidably receives the stationary piston 34, as seen in
Movement of the cylinder 36 from the cocked position, as seen in
The cylinder 36 is biased toward the piston 34, as seen in
The cocking mechanism 18, is in mechanical communication with the piston and cylinder assembly 32, as seen in
The shaft 38 also includes a charging contact element 42 disposed at an end opposite the projectile device and cocking handle, for engagement with the cocking shoulder 37 of the cylinder. In the present described embodiment, the charging contact element 42 has a rigid structure which extends beyond the shaft along an axis perpendicular to the shaft, as seen in
As the shaft 38 is moved into the housing 12, as seen in
Additionally, the shaft 38 is biased away from contact with the cylinder toward an uncocked position, such that the shaft 38 and attached charging contact element 42 are automatically and rapidly moved away from the cylinder 36 and the cocking shoulder 37 once the cylinder has been secured and locked into the cocked position. This fast movement removing the shaft from contact with the cylinder after cocking is accomplished, prevents the cocking mechanism from interfering with the rapid movement of the cylinder across the piston when launching of the projectiles is desired.
Biasing the shaft away from contact with the cylinder also readies the cocking mechanism for further quick and repeated cocking of the cylinder. In the present described embodiment, a biasing spring 46 is secured to the housing at one end and to the charging contact element 42 of the shaft at an opposite end. The charging contact element 42 includes a hook 43 affixed or integral with the element 42 for securing an end of the biasing spring 46 to the element 42.
A locking ring 50 is disposed on the housing 12 for locking the cylinder 36 into a cocked position until a user is ready to launch the projectile. In the present described embodiment, the cylinder 36 includes a lip 39 affixed or integral with the cylinder to catch on a surface 50a of the locking ring 50, locking the cylinder into a cocked position against the urging force of the biasing spring 48. The locking ring 50 is spring biased 52 toward contact with the lip 37 of the cylinder, and further includes a protrusion 54 which extends into the path of a trigger mechanism 56 capable of releasing the cylinder from locked position.
The trigger mechanism 56 is secured to the housing 12 and includes a trigger element 58, a launching contact shoulder 60 and an advance lever 62 capable of accomplishing the dual purpose of advancing the projectile device to a firing position and releasing the cylinder from a cocked position to advance the cylinder on the fixed piston and discharge a burst of compressed air launching a projectile. A full trigger pull of the trigger element 58 will move the launching contact shoulder 60 into contact with the protrusion 54 of the locking ring 50, as seen in
The trigger mechanism 56 is biased away form contact with the protrusion 54 of the locking ring 50. In the present described embodiment, a biasing spring 64, as seen in
A full trigger pull of the trigger element 58 will launch a loaded projectile from the projectile device 16, as described above, and a half trigger pull of the trigger element 58 will rotate the projectile device to align the projectile device 16 to the firing position. The unique positioning of the cocking mechanism 32 extending through the projectile device 16 facilitates the mechanical communication between the trigger mechanism 56 and the projectile device 16 capable of advancing the device to a firing position with the same trigger pull used to release the cocked cylinder and launch the projectile. The projectile device is thus disposed on the housing assembly, with the cylinder on the fixed piston slidably mounted on the fixed piston and moveable between a cocked position and an uncocked position. The cocking mechanism accordingly extends through the projectile device in mechanical communication with the cylinder for moving the cylinder to the cocked position on the fixed piston. As described, the central cocking mechanism and the trigger mechanism with the advance lever extending into the projectile device operate together for advancing the projectile device to a firing position and releasing the cylinder from the cocked position to move the cylinder on the fixed piston and discharge a burst of compressed air launching a projectile.
In the present described embodiment, the advance lever 62 of the trigger mechanism 56 is in mechanical communication with the projectile device 16, facilitating the rotation of the projectile device 16 and rotatably aligning each projectile compartment 20 to the firing position. The rotatable barrel 19 of the projectile device 16 includes a projectile rotating mechanism 66 mounted about the shaft 38 and in mechanical communication with the advance lever 62.
In the present described embodiment, the projectile rotating mechanism 66 includes first and second coaxial barrels, 68 and 70, respectfully, disposed adjacent each other about the shaft 38, as seen in
The advance lever 62 includes an elongated protrusion 80 at an end opposite the trigger element 58 capable of traveling along first and second slots, 74 & 78 respectively. In a present described embodiment, as seen in
In use, as diagramed in
This stepwise advancement of the barrel 19 continues with each pull of the trigger element 58. Each time the barrel 19 is moved one increment, a projectile compartment and loaded projectile is moved to the firing position facilitating the quick simple and fun rapid fire of two or more projectiles.
Additionally, in the present described embodiment, an elongated barrel 82, as seen in
A method for launching two or more projectiles from a toy includes the steps of providing a housing assembly, disposing a projectile device with two or more projectiles about the housing assembly, providing a piston and cylinder assembly, securing the piston in a fixed position to the housing and mounting the cylinder to slide back and forth over the piston, and providing a cocking mechanism in mechanical communication with the piston and cylinder assembly by passing a shaft through the projectile device for engagement with the cylinder and facilitating the launch of two or more projectiles. The method further includes manually pushing the shaft into the housing assembly and into contact with the cylinder assembly forcing the cylinder to a cocked position, and activating a trigger mechanism capable of advancing the projectile device to a firing position and releasing the cylinder from a cocked position, advancing the cylinder over the fixed piston discharging a burst of compressed air and launching the projectiles from the projectile device.
The cylinder further provides a cocking shoulder extending therefrom and the cocking mechanism further provides a charging contact element disposed on the shaft for engagement with the shoulder for moving the cylinder into a cocked position. The cocking mechanism also provides a cocking handle disposed on the shaft at an end opposite the charging contact element, and the method further provides the step of biasing the shaft toward an uncocked position by biasing the contact element away from the cylinder is included.
The projectile device further provides a rotatable barrel having multiple projectile compartments each capable of rotatably aligning with the piston and cylinder assembly in a firing position, and facilitating the delivery of compressed air discharged from the assembly to each projectile in each projectile compartment. The method further provides the step of advancing the rotatable barrel to rotatably align each projectile compartment to the firing position when the trigger mechanism is actuated is included.
From the foregoing, it can be seen that there has been provided a unique toy for launching two or more projectiles in a rapid fire mode through quick, simple and fun cocking and triggering mechanisms which are easy to actuate. While a particular embodiment of the present invention has been shown and described, it will be obvious to those skilled in the art that changes and modifications may be made without departing from the invention in its broader aspects. Therefore, the aim in the appended claims is to cover all such changes and modifications as fall within the true spirit and scope of the invention. The matter set forth in the foregoing description and accompanying drawings is offered by way of illustration only and not as a limitation. The actual scope of the invention is intended to be defined in the following claims when viewed in their proper perspective based on the prior art.
