The present invention relates to projectile launching devices for launching various types of projectiles. The invention is particularly useful in toys for launching soft or hollow balls, suction or magnetic darts, and the like, and the invention is therefore described below with respect to such applications, but it will be appreciated that the invention could also be used in other applications such as BB guns and other toy or non-toy weapons.
Various types of toy weapons have been developed for children for launching soft or hollow balls, suction or magnetic darts, and the like. Most of the known toys of this type utilize a spring-actuated hammer or impact device for physically impacting the projectile. However, projectiles which are subjected to repeated impact blows have a relatively short useful life, and therefore must be frequently replaced. This is particularly true where substantially large impacts are applied to the projectile in order to launch them at a relatively high velocity. In addition, the known devices do not readily permit the force applied to the projectile to be preset, and thereby the range or velocity of the projectiles to be varied. Further, such impact-type devices are relatively costly to produce, particularly when designed for applying high impact, and therefore not susceptible to low-cost volume production.
An object of the present invention is to provide a projectile launching device having advantages in one or more of the above respects. Another object of the invention is to provide a projectile launching device particularly useful in toys.
According to one broad aspect of the present invention, there is provided a projectile launching device, comprising: a housing having a barrel at one end; an air pulsator within the housing having an inlet and an outlet; a pump communicating with the inlet of the air pulsator for pumping air into the air pulsator to pressurize the air therein; a projectile chamber within the barrel for receiving a projectile to be launched; and a valve in the outlet of the air pulsator which is normally closed to permit the pump to pressurize the air therein to a desired level, the valve being openable to produce an air pulse discharge therefrom into the projectile chamber, and thereby to launch the projectile from the barrel at a velocity according to the force applied to the projectile by the air pulse discharge.
As will be described more particularly below, such a projectile launching device launches the projectile by a pulse or blast of air, rather than by a physical impact, and thereby enables the projectile to be reused many times. Moreover, the force of the air blast can be conveniently preset which thereby enables the velocity and/or range of the projectile launched from the device to be easily preset as desired.
According to further features in the described preferred embodiments, the pump is a manually-driven or hand-driven pump, and the housing is a portable unit constructed as a hand-held toy, such as a toy gun for shooting light soft balls, hollow balls, suction darts, and the like.
According to another aspect of the invention, the device is formed with a first opening in the barrel for introducing the projectile into the projectile chamber. It further includes a movable member formed with a second opening alignable with the first opening in one position of the movable member to permit introducing a projectile into the projectile chamber, and disalignable with respect to the first opening to close same to permit launching the projectile from the barrel when an air pulse discharge is applied to the projectile by the opening of the valve. In the described preferred embodiments, the movable member is in the form of a slidable feeder sleeve received within the end of the barrel and formed with a knob projecting outwardly from the end of the barrel. The knob is manually graspable by a user to slide the feeder sleeve in one direction to align, or in the opposite direction to disalign, the second opening in the inner sleeve with respect to the first opening in the barrel.
As will be described more particularly below, such a construction permits repeatedly shooting a plurality of soft balls, hollow balls, or the like held in a holder.
A further embodiment is described wherein the end of the barrel serves as the projectile chamber and is designed to receive a suction dart, having a stem at one end, a suction cup at the opposite end to project externally of the barrel, and a plurality of fins between the stem and suction cup to be received over the outer surface of the end of the barrel.
Further features and advantages of the invention will be apparent from the description below.
The invention is herein described, by way of example only, with reference to the accompanying drawings, wherein:
a-3e are diagrammatic fragmentary views illustrating various stages in the use of the toy gun of
It is to be understood that the foregoing drawings, and the description below, are provided primarily for purposes of facilitating understanding the conceptual aspects of the invention and possible embodiments thereof, including what is presently considered to be a preferred embodiment. In the interest of clarity and brevity, no attempt is made to provide more details than necessary to enable one skilled in the art, using routine skill and design, to understand and practice the described invention. It is to be further understood that the embodiments described are for purposes of example only, and that the invention is capable of being embodied in other forms and applications than described herein.
The preferred embodiments of the invention described below relate to a projectile launching device constructed as a toy weapon.
The projectile launching device illustrated in
As further shown in
Cylinder 11 includes an inlet port 12 connected, via a one-way valve 13, to the atmosphere. Valve 13 permits the air flow from the atmosphere into the cylinder, and not vice versa.
Cylinder 11 further includes an outlet port 14 connected by another one-way valve 15 permitting only the outflow of air from cylinder 11 upon the displacement of piston 10 within the cylinder. A spring 16 within cylinder 11 urges piston 10 to its normal position illustrated in
The structures of air pulsator 20 and projectile chamber 30 are more particularly illustrated in
Thus, as shown in
For producing a snap-action opening of valve 25, valve member 25c within chamber 24 is formed with a deformable annular peripheral portion 25d which deforms during the initial deformation of plate 22 to keep opening 22a closed, until a predetermined pressure has been built up within chamber 24. When this occurs, peripheral portion 25d of valve member 25 separates from plate 22 with a snap-action to produce a high-pressure pulse discharge from chamber 24 via opening 22a through the projectile chamber 30 and thereby launches a projectile 5 therein at a high velocity through the open end of barrel 4.
The pressure in chamber 24, which produces a snap-action opening of valve 25 with respect to plate 22, is presettable by a collar 26 and a spring 27 interposed between the collar and plate 22. For this purpose, collar 26 is formed with an annular extension 26a threadedly received over an annular extension 21a of plate 21. Thus, threading collar 26 in one direction with respect to plate 21 contracts spring 27 to thereby increase the force applied by the spring to plate 22 resisting its movement away from plate 21, and thereby increasing the pressure within chamber 24 required for opening the valve member 25 with a snap-action. On the other hand, threading the collar in the opposite direction decreases the force applied by spring 27, and thereby decreases the required opening pressure of valve 25.
As seen in
Projectile chamber 30 is near the end of barrel 4. An opening 28a is formed in the inner conduit 28. Another opening 4a is formed in the outer end of barrel 4 in alignment with opening 28a. Opening 28a may be circumscribed by an annular rib 28b projecting slightly into chamber 30 to releasably retain a ball 5 therein.
The lower end of funnel-shaped holder 6 is formed with a tubular extension 6a received within opening 4a of the barrel for feeding the projectiles 5 one-by-one, to opening 4a. Projectiles 5, however, are normally blocked from dropping into the projectile chamber 30 via opening 28a by a feeder sleeve 31 slidable in the annular space between conduit 28 and the outer end of barrel 4. Sleeve 31 is formed, at its inner end, with an opening 32 dimensioned to freely receive one of the projectiles 5. Sleeve 31 is further formed with an outer knob 33 at its outer end graspable by the user for sliding sleeve 31 either to its inner position illustrated in
The operation of the illustrated device will now be described particularly with reference to
a diagrammatically illustrates the initial condition of the device, wherein feeder sleeve 31 is in its innermost position so that its projectile-receiving opening 32 is non-aligned with openings 4a and 28a in barrel 4 and the inner conduit 28, respectively. In this initial condition of the device, there is no projectile 5 in projectile chamber 30 at the outer end of the barrel.
In order to load a projectile into projectile chamber 30, feeder sleeve 31 is moved first outwardly to the position illustrated in
When sleeve 31 is moved back to its inner position (
The device may then be fired by operating lever 7 to launch the projectile 5 within projectile chamber 30 through the open end of barrel 4. This operation is more particularly illustrated in
Thus, as shown in
After a projectile has thus been launched from the device, feeding sleeve 31 may again be moved outwardly (
It will thus be seen that, in order to load another projectile into the projectile chamber 30, it is only necessary to move feeder sleeve 31 to its outer position illustration in
For safety purposes, the projectiles 5 are preferably in the form of spherical balls of soft, light-weight, spongy cellular material, such as “NERF” material, and are of spherical configuration to facilitate feeding them to the projectile chamber from the funnel holder 6, as described above.
As shown in
The described device thus launches the projectiles, not with a physical impact, but rather with an air blast or air pulse, whose magnitude can be preset according to a desired projectile launching velocity. Since the air blast is produced by an air cylinder type of force-multiplier, namely the air pulsator 20, the force multiplication can be predesigned as desired by suitably dimensioning the air passageways from piston-cylinder 10, 11, to the projectile chamber 30. The force multiplication can also be increased by moving linkage 9 to piston cylinder 10, 11 closer to the pivotable axis 8 of the lever 7. Although this increases the force produced by operating the lever, it also decreases the air displacement by each such operation; but since valve 15 is a one-way valve, the lever may be operated several times to pressurize chamber 28 sufficiently to snap-open valve 25 and thereby to produce the desired air pulse force to launch the projectiles. Thus, virtually the only limit on the magnitude of the air blast produced, and thereby of the velocity or range of the projectile launched, is the physical strength of the operator and of the parts used.
Many variations can be made. For example, the device could be fed with balls or other projectiles by manually inserting them one-by-one into the projectile station 30 via opening 4a. The balls could also be other than spherical shape, e.g., of bullet shape. As described with respect to
In this embodiment of the invention, the toy gun is constructed as described above with respect to
The toy gun illustrated in
In
It will be seen that the barrel 4, and the feeder 33, in both constructions are as described above with respect to
It is to be appreciated that the invention has been described above with respect to several preferred embodiments for purposes of example only, and that many other variations, modifications and applications of the invention may be made.
This application claims the benefit of U.S. Provisional Patent Application No. 60/996,791 filed on Dec. 5, 2007, the contents of which are incorporated by reference as if fully set forth herein.
Number | Date | Country | |
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60996791 | Dec 2007 | US |