The present invention relates generally to water guns or weapons, and particularly to a water weapon that launches a water projectile and to the water projectiles used in the weapon.
Water guns that eject a stream of water are a well-known toy for children. These guns have been designed to eject the stream of water in a number of ways. The most common method of ejecting water has been by a manual pump coupled to the trigger of the gun. The pump is actuated by the pressure exerted by one finger of an operator upon the trigger; thus, the pump typically cannot generate enough pressure to eject the water a lengthy distance. Additionally, these types of pumps work on the actuation of a compression piston which creates single, short bursts of water.
Water guns have also been designed with small electric pumps which expel a stream of water from a tube coupled to the pump.
Toy water guns have also been developed which eject a stream of water by exerting pressure on the water within the gun greater than ambient pressure and controlling the release of water through a control valve. The water is expelled from the gun due to this pressure difference. The pressurization of the water has been achieved in a variety of manners and the pressure is high enough to eject the water a lengthy distance.
The present invention seeks to provide a novel water projectile and a novel water weapon, as is described more in detail hereinbelow. The invention uses water projectiles, that is, sachets, pouches, bags, or other compartments or containers, which are launched by the water weapon or any other method, such as being launched or thrown manually. The material of the projectile bursts or ruptures upon the projectile impacting against a person or object, thereby releasing the water from the projectile.
The present invention will be understood and appreciated more fully from the following detailed description taken in conjunction with the drawings in which:
Reference is now made to
The weapon is designed to receive, handle and shoot water projectiles and includes, without limitation, a drum magazine door 1, which may be used to secure loaded water projectiles in a drum magazine 13 (also called a “compartment”). A rotation mechanism 2 may rotate the drum magazine 13, and may include a rotation trigger 3. The weapon may include an energy absorber (shock absorber) 4 and an energy absorber base 5. The weapon may include a barrel 6, a handle 7, a carriage 8 (also called a movable element), a trigger 9, a grip 10, a locking slider 11, a mechanism 13 for the drum magazine door 1, one or more water projectiles 12 and an elastic band 14.
In a non-limiting embodiment of the present invention, in the initial position of the weapon, door 1 is closed, and drum magazine 13 is not loaded with any water projectiles 12. The empty carriage 8 is at its default position close to the energy absorber 4 at the weapon's front. Elastic band 14 is in a loose position.
In order to load the water projectiles 12, the user slides the locking slider 11 to open the drum magazine door 1. The door will pop out and reveal the drum magazine 13. The user inserts the water projectiles 12 into the drum magazine 13 in their fixed position (in the illustrated embodiment, up to 6 projectiles can be loaded, but the invention is not limited to this number). After loading, the user pushes the drum magazine door 1 upwards until the locking slider 11 is locked.
After loading, the user holds the grip 10, places a finger at trigger 9 and grasps the handle 7 with the other hand.
In order to launch the water projectiles 12, the user slides the handle 7 forward to the end of barrel 6 (until it stops). At this point, handle 7 engages elastic band 14. The user then pulls the handle 7 back towards the grip 10. On the way backwards, the handle 7 gathers the carriage 8 and stretches the elastic band 14 to the end of the path. When the handle 7 reaches the end of the path, the elastic band 14 is stretched. Then squeezing trigger 9 propels the carriage 8 forward and launches the loaded water projectile 12 from the carriage 8 when the carriage reaches the end of its forward travel and stops suddenly against the energy absorber 4. The elastic band is not stretched anymore and is once again poised to be engaged by the handle 7 if the handle 7 is moved forward to the end of barrel 6. Repeating the process will launch the rest of the water projectiles 12. In this embodiment the trigger 9 is the propelling element that is coupled to the movable element 8 for propelling the fluid-sealed projectile 12 forwards from the weapon.
“Slam firing” of the water projectiles 12 is also contemplated in which the projectiles are launched from the weapon by movement of the handle 7 instead of the trigger 9. In this embodiment the handle 7 is the propelling element that is coupled to the movable element 8 for propelling fluid-sealed projectile 12 forwards from the weapon.
In this mode, handle 7 is slid forwards and backwards repeatedly after water projectiles 12 are loaded. Sliding handle 7 forwards causes the handle 7 to gather the carriage 8 from its default position. Pulling handle 7 backwards causes the elastic band 14, attached to the carriage 8, to stretch. On the way back, the carriage 8 sticks to rotation trigger 3 and pulls it backwards to trigger the rotation mechanism 2. The rotation mechanism 2 rotates and causes the drum magazine 13 to rotate.
When handle 7 is at its most backwards position, carriage 8 is located under the drum magazine 13. As drum magazine 13 rotates, two doors opens and one of the water projectiles 12 drops into the carriage 8.
Afterwards, when handle 7 starts to move forward, carriage 8 is released from the handle 7, and the attached, tensioned elastic band 14 rapidly pulls carriage 8 with the water projectile 12 inside it until the carriage 8 collides with the energy absorber 4. The sudden stopping of carriage 8 against the energy absorber 4, causes the water projectiles 12 to be propelled rapidly forwards through the barrel 6 towards the target.
Reference is now made to
It is noted that inflatable or fillable containers such as sachets can be filled with variety of fluids, such as air, water, laundry detergent, soft drinks, etc. If individual containers were used for any game with the water projectile weapon, a lot of inflatable containers would have to be filled with fluids and sealed. The need to do multiple fillings may be time-consuming and cumbersome for the user to do.
Additionally, it is not enough to fill multiple containers; they must be properly sealed. For example, an individual may manually fill water balloons with water one at a time and then tie the balloons, but this would be time-consuming and cumbersome for the user.
The invention solves the problem of filling and sealing by providing a standalone container that can be filled and sealed.
Inflatable containers may be damaged when filled to different volumes by individuals. For example, water balloons may burst if the user does not turn off the water flow into the water balloon. The invention solves this problem with a discharge pressure valve. However, the invention can be carried out without any pressure valve.
In the invention, the fillable containers may be filled and sealed by the user at home, and there is no need for transporting filled containers from the manufacturer. If the water balloons were filled with water and sealed during the manufacturing process, they could leak or burst during transportation.
In
There is an opening 31 at a first end, which may be cone shaped, which can be attached to a fluid source (e.g., faucet) as the fluid entrance. A primary channel 32 delivers the fluid to all inflatable containers at the same time.
A one-way valve 33 at each compartment allows the fluid to flow through the primary channel 32 into a corresponding inflatable container 35 and seals each container with the fluid inside. Heat resisting material 34 may be printed or otherwise placed at each valve entrance to support fluid flow into the inflatable container in lower pressures.
Separable inflatable containers 35 are designed to hold fluid while filling and handling. Cut lines 36 are placed around each inflatable container 35 to support controlled separation from the manufactured packet.
A discharge valve 37 (pressure relief valve or pressure regulator) at the second end (exit) or on an adapter at the water inlet (see below), allows controlling the filling pressure in the compartments and prevents over-pressure and bursting.
Heat resisting material 38 allows selective welding process to seal each compartment 35. The heat resisting material 38 allows welding the valve panels to the corresponding inflatable container panels and maintains the valve channel open. One example of heat resisting material 34 or 38 is heat resistant ink. Such inks are commercially available that withstand temperatures up to 300° C. for marking on plastic or shrink wrap, and they can withstand coming into contact with high temperatures of heat sealing machines, so that the ink maintains the valve channel open during welding of the valve panels to the corresponding inflatable container panels.
Welding lines 39 are the boundaries of the inflatable containers 35 and of others compartments, such as primary channel 32 and discharge valve 37.
The film material can be recycled either as a reusable or made of biodegradable plastic materials to minimize environmental damage. No additional parts or materials are required to form the apparatus other than thermoplastic film. A suitable biodegradable material is PLA (poly (lactic acid) or polylactide).
The apparatus may be filled as follows: 1. Attach and hold apparatus entrance 31 to the faucet. 2. Turn on water and fill the inflatable containers to maximum. 3. Turn off water. 4. Tear out the filled containers from the apparatus following container cut lines. The detached containers 35 become the water projectiles 12.
Reference is now made to
The embodiment of
As mentioned above, the array of water projectiles may include a discharge valve (pressure relief valve or pressure regulator) to control the filling pressure in the compartments and prevent over-pressure and bursting the material. In a preferred embodiment, the discharge valve 37 is on an adapter at the water inlet, as seen in
As mentioned above, the material of the projectile bursts or ruptures upon the projectile impacting against a person or object, thereby releasing the water from the projectile. Accordingly, in another aspect of the invention, the projectile may include one or more weakened-impact-pressure areas 60 (shown in
This option is shown in
The weakened-impact-pressure area 60 may include, without limitation, an area of thinner material or burst lines made of weaker welding or other joining means. Other options include, without limitation, using different types of joining or welding to create weaker or stronger areas, or exposing the projectile bag material to electromagnetic radiation or chemicals to modify the strength of the material. Strengthening elements may be added to the projectile material, such as but not limited to, areas or strips of stronger or thicker material added to the projectile material.
Another option is to add into the liquid that fills the projectiles different colors or substances (e.g., glitter or powder and others) that create different effects when the projectile bursts on the target. This option is shown in
Using the combination of the water projectiles and water weapon is shown in
Reference is now made to
Reference is now made to
Reference is now made to
Filing Document | Filing Date | Country | Kind |
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PCT/IB22/50641 | 1/25/2022 | WO |
Number | Date | Country | |
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63143862 | Jan 2021 | US |