NL2017165B1 - Toy water gun - Google Patents
Toy water gun Download PDFInfo
- Publication number
- NL2017165B1 NL2017165B1 NL2017165A NL2017165A NL2017165B1 NL 2017165 B1 NL2017165 B1 NL 2017165B1 NL 2017165 A NL2017165 A NL 2017165A NL 2017165 A NL2017165 A NL 2017165A NL 2017165 B1 NL2017165 B1 NL 2017165B1
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- Prior art keywords
- water
- toy
- gun
- reservoir
- cartridge
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41B—WEAPONS FOR PROJECTING MISSILES WITHOUT USE OF EXPLOSIVE OR COMBUSTIBLE PROPELLANT CHARGE; WEAPONS NOT OTHERWISE PROVIDED FOR
- F41B9/00—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure
- F41B9/0003—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure characterised by the pressurisation of the liquid
- F41B9/0006—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure characterised by the pressurisation of the liquid the liquid being pressurised prior to ejection
- F41B9/0015—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure characterised by the pressurisation of the liquid the liquid being pressurised prior to ejection the liquid being pressurised by compressed gas, e.g. air
- F41B9/0025—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure characterised by the pressurisation of the liquid the liquid being pressurised prior to ejection the liquid being pressurised by compressed gas, e.g. air the pressurised liquid and the compressed gas being physically separated from each other, e.g. by a movable wall
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41B—WEAPONS FOR PROJECTING MISSILES WITHOUT USE OF EXPLOSIVE OR COMBUSTIBLE PROPELLANT CHARGE; WEAPONS NOT OTHERWISE PROVIDED FOR
- F41B9/00—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure
- F41B9/0003—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure characterised by the pressurisation of the liquid
- F41B9/0006—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure characterised by the pressurisation of the liquid the liquid being pressurised prior to ejection
- F41B9/0009—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure characterised by the pressurisation of the liquid the liquid being pressurised prior to ejection the pressurised liquid being contained in an expandable chamber, e.g. a bladder or a chamber with a spring-loaded slidable wall
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41B—WEAPONS FOR PROJECTING MISSILES WITHOUT USE OF EXPLOSIVE OR COMBUSTIBLE PROPELLANT CHARGE; WEAPONS NOT OTHERWISE PROVIDED FOR
- F41B9/00—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure
- F41B9/0003—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure characterised by the pressurisation of the liquid
- F41B9/0006—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure characterised by the pressurisation of the liquid the liquid being pressurised prior to ejection
- F41B9/0015—Liquid ejecting guns, e.g. water pistols, devices ejecting electrically charged liquid jets, devices ejecting liquid jets by explosive pressure characterised by the pressurisation of the liquid the liquid being pressurised prior to ejection the liquid being pressurised by compressed gas, e.g. air
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Toys (AREA)
Abstract
Description
OctrooicentrumPatent center
NederlandThe Netherlands
Θ 2017165 (21) Aanvraagnummer: 2017165 © Aanvraag ingediend: 14/07/2016Θ 2017165 (21) Application number: 2017165 © Application submitted: 14/07/2016
BI OCTROOI @ Int. CL:BI PATENT @ Int. CL:
F41B 9/00 (2016.01)F41B 9/00 (2016.01)
(54) TOY WATER GUN (57) A toy water gun with a water reservoir assembly comprising:(54) TOY WATER GUN (57) A toy water gun with a water reservoir assembly including:
- a water reservoir having a movable wall allowing variation of a water volume- a water reservoir having a movable wall allowing variation of a water volume
- a pressurization device with a pressurization cylinder wherein a piston is reciprocable defining first and second chambers, wherein the piston is movable in response to a difference in gas pressure between the first chamber and second chamber, and- a pressurization device with a pressurization cylinder with a piston is reciprocable defining first and second chambers, where the piston is movable in response to a difference in gas pressure between the first chamber and second chamber, and
- a connector structure that connects the movable wall of the water reservoir to the piston of the pressurization device.- a connector structure that connects the movable wall of the water reservoir to the piston or the pressurization device.
The pressurization device pressurizes water that is discharged from the water reservoir.The pressurization device pressurizes water that is discharged from the water reservoir.
NL BI 2017165NL BI 2017165
Dit octrooi is verleend ongeacht het bijgevoegde resultaat van het onderzoek naar de stand van de techniek en schriftelijke opinie. Het octrooischrift komt overeen met de oorspronkelijk ingediende stukken.This patent has been granted regardless of the attached result of the research into the state of the art and written opinion. The patent corresponds to the documents originally submitted.
P32483NL00P32483NL00
TOY WATER GUNTOY WATER GUN
The present invention relates to the field of toy water guns.The present invention relates to the field of toy water guns.
According to a first aspect of the invention, the present invention relates to a toy water gun with a water reservoir assembly having a variable water volume.According to a first aspect of the invention, the present invention relates to a toy water gun with a water reservoir assembly having a variable water volume.
In the field toy water guns are known having an expandable water reservoir that is expandable by the pressure exerted on the water reservoir by the water received in said reservoir. Such expandable water reservoirs allow the storage of pressurized water in the toy water gun. Said pressurized water may be pressurized by the user of the toy water gun, e.g. by a suitable pump provided within or separate from the toy water gun. The provision of pressurized water and a water reservoir expandable in response to said pressurized water allows for the discharge of a more powerful water stream that can traverse a larger distance.In the field toy water guns are known to have an expandable water reservoir that is expandable by the pressure exterted on the water reservoir by the water received in said reservoir. Such expandable water reservoirs allow the storage or pressurized water in the toy water gun. Said pressurized water may be pressurized by the user of the toy water gun, e.g., by a suitable pump provided within or separate from the toy water gun. The provision of pressurized water and a water reservoir expandable in response to said pressurized water allows for the discharge of a more powerful water stream that can traverse a greater distance.
US2005072794 describes an expandable water reservoir in a toy water gun. In particular this document discloses a toy water gun comprising a water reservoir, wherein a water volume in said water reservoir is enclosed by a cylinder and a water piston that is reciprocable in the cylinder. The water piston forms a movable wall allowing to enlarge and reduce said water volume. This water piston is movable in response to pressure exerted thereon by pressurized water present in the water reservoir. The water volume can be enlarged against an air pressure that directly acts on the opposite side of the water piston. When the discharge of water from the water reservoir is enabled the air pressure aids in forcing the water out of the water reservoir. The air pressure is formed in a dedicated chamber and can be further pressurized by means of an air pump to reach a pressure in the pressure chamber that exceeds atmospheric pressure.US2005072794 describes an expandable water reservoir in a toy water gun. In particular this document discloses a toy water gun including a water reservoir, where a water volume in said water reservoir is enclosed by a cylinder and a water piston that is reciprocable in the cylinder. The water piston forms a movable wall allowing to enlarge and reduce said water volume. This water piston is movable in response to pressure by pressurized water present in the water reservoir. The water volume can be enlarged against an air pressure that acts directly on the opposite side of the water piston. When the discharge of water from the water reservoir is enabled the air pressure aids in forcing the water out of the water reservoir. The air pressure is formed in a dedicated chamber and can be further pressurized by means of an air pump to reach a pressure in the pressure chamber that exceeds atmospheric pressure.
According to a first aspect, the present inventions aims to provide an improved toy water gun, or at least an alternative for existing toy water guns.According to a first aspect, the present inventions aims to provide an improved toy water gun, or at least an alternative for existing toy water guns.
The first aspect of the invention provides for a toy water gun according to claim 1.The first aspect of the invention provides for a toy water gun according to claim 1.
Herein the pressurization device is embodied such that, when discharge of water from said water reservoir is prevented by the discharge valve and pressurized water is being fed into said water reservoir via the inlet thereof, the pressurized water exerts a force on the movableHerein the pressurization device is embodied such that, when discharge of water from said water reservoir is prevented by the discharge valve and pressurized water is being fed into said water reservoir via the inlet, the pressurized water exerts a force on the movable
-2wall of the water reservoir so as to enlarge said water volume, which in turn causes enlargement of the volume of the first chamber of said pressurization device and reduction of the volume of the second chamber of the pressurization device thereby the gas pressure in the first chamber becoming lower than the gas pressure in the second chamber thereof thus exerting a force on the piston so as to reduce the volume of the first chamber which is transmitted via the connector structure, e.g. piston rod, to the movable wall so as to pressurize the water in the water reservoir.-2wall of the water reservoir so as to enlarge said water volume, which in turn causes enlargement of the volume of the first chamber of said pressurization device and reduction of the volume of the second chamber of the pressurization device of the gas pressure in the first chamber becoming lower than the gas pressure in the second chamber hence thus exerting a force on the piston so as to reduce the volume of the first chamber which is transmitted via the connector structure, eg piston rod, to the movable wall so as to pressurize the water in the water reservoir.
When discharge of water from said water reservoir is subsequently enabled by said discharge valve, the pressurization device pressurizes said water that is discharged from the water reservoir.When discharge of water from said water reservoir is enabled by said discharge valve, the pressurization device said water that is discharged from the water reservoir.
The inventors have determined that the expandable water reservoir of US2005072794 has disadvantages. The force provided to the water volume by the air pressure is determined by the pressure difference between the watervolume and the air pressure in said chamber and by the area of the movable piston. As the area of the movable piston of US2005072794 is limited, a large pressure difference is needed to obtain a sizeable force. However, a simple and affordable air pump may not be able to provide such high air pressure, and thus the device of US2005072794 may not be able to provide the desired force to the water volume.The inventors have determined that the expandable water reservoir or US2005072794 has disadvantages. The force provided to the water volume by the air pressure is determined by the pressure difference between the water volume and the air pressure in said chamber and by the area of the movable piston. As the area of the movable piston or US2005072794 is limited, a large pressure difference is needed to obtain a sizeable force. However, a simple and affordable air pump may not be able to provide such high air pressure, and thus the device or US2005072794 may not be able to provide the desired force to the water volume.
In embodiments of the present invention, the provision of a water reservoir with a movable wall one the one hand and of a pressurization cylinder with a piston on the other hand, wherein said movable wall is connected by a connecting structure to the piston, allows the provision of a piston in the pressurization device that has a larger cross-sectional area than the movable wall of the water reservoir. Due to this larger cross-sectional area the force exerted by the pressurization device as a result of the pressure difference between the first and the second chambers can be larger. This larger pressure difference contributes to a more powerful discharge stream that can traverse larger distances.In the present of the present invention, the provision of a water reservoir with a movable wall one of the one hand and of a pressurization cylinder with a piston on the other hand, said said movable wall is connected by a connecting structure to the piston, allows the provision of a piston in the pressurization device that has a larger cross-sectional area than the movable wall of the water reservoir. Due to this larger cross-sectional area the force exerted by the pressurization device as a result of the pressure difference between the first and the second chambers can be larger. This larger pressure difference contributes to a more powerful discharge stream that can traverse larger distances.
The area of the piston of the pressurization device may e.g. be two or more times larger than the area of the movable wall of the water reservoir acting on the water, e.g. four or more times larger.The area of the piston of the pressurization device may e.g. be two or more times larger than the area of the movable wall of the water reservoir acting on the water, e.g. four or more times larger.
The volume of the pressurization cylinder may be e.g. two or more times larger than the largest water volume that can be reached through moving said movable wall of the water reservoir, e.g. four or more times larger.The volume of the pressurization cylinder may be e.g. two or more times larger than the largest water volume that can be reached through moving said movable wall of the water reservoir, e.g. four or more times larger.
-3The movable wall of the water reservoir may be provided with one or more resilient seals, e.g. one or more O-rings extending around a water piston.-3 The movable wall of the water reservoir may be provided with one or more resilient seals, e.g., one or more O-ring extending around a water piston.
The piston of the pressurization device may be provided with one or more seals, e.g. one or more O-rings extending around the piston, to prevent gas flow between the first chamber and second chamber of the pressurization device.The piston of the pressurization device may be provided with one or more seals, e.g., one or more O-ring extending around the piston, to prevent gas flow between the first chamber and second chamber of the pressurization device.
According to the first aspect of the invention, the first and second chambers contain a gas, preferably air, possibly very little gas as will be explained herein.According to the first aspect of the invention, the first and second chambers contain a gas, preferably air, possibly very little gas as will be explained.
In a preferred embodiment the second chamber is in communication with ambient, whereas the first chamber is at a pressure below atmospheric pressure, at least in some operative positions of the piston.In a preferred embodiment the second chamber is in communication with ambient, whereas the first chamber is at a pressure below atmospheric pressure, at least in some operative positions of the piston.
In another embodiment the second chamber is at a pressure above atmospheric pressure, at least in some operative positions of the piston, e.g. with the first chamber being at a pressure below atmospheric pressure, at least in some operative positions of the piston.In another embodiment the second chamber is at a pressure above atmospheric pressure, at least in some operative positions of the piston, e.g. with the first chamber being at a pressure below atmospheric pressure, at least in some operative positions of the piston.
In an embodiment of the invention a partial vacuum is provided in the first portion of said pressurization chamber, e.g. said partial vacuum already being present when no ormimimal water is present in the water reservoir and/or said partial vacuum being created when water is fed into said reservoir causing the piston of the pressurization device to move and thus create a below atmospheric pressure.In an embodiment of the invention a partial vacuum is provided in the first portion of said pressurization chamber, eg said partial vacuum is already present when no orimimimal water is present in the water reservoir and / or said partial vacuum is created when water is fed into said reservoir causing the piston of the pressurization device to move and thus create a below atmospheric pressure.
In all practical embodiments, even those with a partial vacuum, some gas, e.g. air, molecules will be present in the first chamber, and thus the first chamber is the considered to be filled with a gas or to contain a gas in the context of this first aspect of the invention. The phrasing ‘filled with a gas’ thus includes all gas pressures obtainable in practice in a toy water gun and does not exclude low pressures.In all practical issues, even those with a partial vacuum, some gas, eg air, molecules will be present in the first chamber, and thus the first chamber is considered to be filled with a gas or to contain a gas in the context of this first aspect of the invention. The phrasing "filled with a gas" thus includes all gas pressures available in practice in a toy water gun and does not exclude low pressures.
In a preferred embodiment the second chamber is at all times in communication with the ambient air. In this embodiment the pressure in the first chamber will, possibly dependent on the position of the piston, be different from ambient air, so as to provide the desired pressure difference between the two chambers.In a preferred embodiment the second chamber is at all times in communication with the ambient air. In this embodiment the pressure in the first chamber will, possibly dependent on the position of the piston, be different from ambient air, so as to provide the desired pressure difference between the two chambers.
In an embodiment the volume of the water reservoir is substantially zero when no water is provided to the water reservoir, so the reservoir is totally empty.In an embodiment the volume of the water reservoir is substantially zero when no water is provided to the water reservoir, so the reservoir is totally empty.
-4In an embodiment, with the water reservoir being empty or at lowest effective volume during use, the volume of the first chamber is substantially zero.-4In an embodiment, with the water reservoir being empty or at lowest effective volume during use, the volume of the first chamber is substantially zero.
The movable wall of the water reservoir is in an embodiment made to rest against one of the other walls, e.g. an end of a water cylinder forming the water reservoir, when no water is present in the water volume. This embodiment may be realized by a suitable choice of the length of the connector structure, e.g. a rigid elongate element, and the distance between the water reservoir and the pressurization device. In this embodiment the water reservoir and pressurization device will upon discharge of water from said water reservoir return to said substantially zero volume. Thus, the water volume may be emptied completely when discharge of water is enabled.The movable wall of the water reservoir is in an embodiment made to rest against one of the other walls, e.g. an end of a water cylinder forming the water reservoir, when no water is present in the water volume. This embodiment may be realized by a suitable choice of the length of the connector structure, e.g. a rigid elongate element, and the distance between the water reservoir and the pressurization device. In this embodiment the water reservoir and pressurization device will upon discharge of water from said water reservoir return to said substantially zero volume. Thus, the water volume may be complete when discharge or water is enabled.
The relative increase in volume of the first chamber during enlargement is largest when the volume thereof is initially substantially zero, so that the ratio of initial volume of the first chamber, that is, the volume when no or minimum water is present in the water reservoir, to an enlarged volume, is the largest. As the change of volume during enlargement is maximized, also the change in pressure in the first chamber of the pressurization is maximized, thus creating a larger force that will be exerted on the piston and the water in the water storage volume of the water reservoir when discharge of water from the water reservoir is enabled.The relative increase in volume of the first chamber during enlargement is largest when the volume is initially substantially zero, so that is the ratio of initial volume of the first chamber, that is, the volume when no or minimum water is present in the water reservoir , to an enlarged volume, is the largest. As the change of volume during enlargement is maximized, also the change in pressure in the first chamber of the pressurization is maximized, thus creating a larger force that will be exerted on the piston and the water in the water storage volume of the water reservoir when discharge or water from the water reservoir is enabled.
In an embodiment the pressurization device is embodied such that a partial vacuum in the first chamber is such that the pressure difference between the first and second chambers is substantially independent of the position of the piston. As a result the force provided by said pressure difference is independent of the position of the piston in the pressurization cylinder, e.g. said pressure difference between the first and second chambers does not differ by more than 20% between different terminal positions of the piston.In an embodiment the pressurization device is embodied such that a partial vacuum in the first chamber is such that the pressure difference between the first and second chambers is substantially independent of the position of the piston. As a result the force provided by said pressure difference is independent of the position of the piston in the pressurization cylinder, e.g. said pressure difference between the first and second chambers does not differ by more than 20% between different terminal positions of the piston.
In an embodiment the first chamber is well-sealed from its surroundings, such that a partial vacuum can be maintained in said first chamber with a pressure that is sufficiently low to maintain a pressure difference between the first and second chambers that is substantially independent of the operative positions of the piston. The pressure of the second chamber may be substantially ambient pressure.In an embodiment the first chamber is well-sealed from its surroundings, such a partial vacuum can be maintained in said first chamber with a pressure that is sufficiently low to maintain a pressure difference between the first and second chambers that is substantially independent of the operative positions of the piston. The pressure of the second chamber may be substantially ambient pressure.
Embodiments of the invention allow to overcome a disadvantage of existing expandable water reservoirs, such as the abovementioned US2005072794. A disadvantage of US2005072794 is that as the volume of the air pressure chamber increases duringEmbodiments of the invention allow to overcome a disadvantage of existing expandable water reservoirs, such as the abovementioned US2005072794. A disadvantage of US2005072794 is that as the volume of the air pressure chamber increases during
-5discharge, the pressure of the air pressure chamber, and subsequently the pressure difference between water storage volume and air pressure chamber, decreases. As a consequence, the force provided by said movable wall and therefore the distance that the discharge stream of the water toy gun can traverse decreases during a discharge.-5discharge, the pressure of the air pressure chamber, and subsequently the pressure difference between water storage volume and air pressure chamber, decreases. As a consequence, the force provided by said movable wall and therefore the distance that the discharge stream of the water toy gun can traverse decreases during a discharge.
In the abovementioned embodiment of the invention the force provided by the gas pressure difference is essentially independent of operative positions of the piston, and thus it is expected that the force exerted by the movable wall of the water reservoir on the water in said reservoir is essentially independent of operative positions of the piston. Thus, the pressure of the water stream that is discharged by the toy water gun and the distance that the water stream may traverse is expected to remain substantially constant throughout a discharge.In the abovementioned embodiment of the invention the force provided by the gas pressure difference is essentially independent or operative positions of the piston, and thus it is expected that the force is exerted by the movable wall of the water reservoir on the water in said reservoir is essentially independent or operative positions of the piston. Thus, the pressure of the water stream that is discharged by the toy water gun and the distance that the water stream may be traverse is expected to remain substantially constant throughout a discharge.
In an embodiment the second chamber is in communication with the ambient air by means of a passage extending through a wall of the pressurization device. One could also envisage such communication via the connector structure, albeit believed to be more complex.In an embodiment the second chamber is in communication with the ambient air by means of a passage extending through a wall of the pressurization device. One could also envisage such communication via the connector structure, albeit believed to be more complex.
In an embodiment an ambient pressure passage, or venting passage, of a chamber of the pressurization device is provided with an airflow operated sound-producing device that is adapted to provide a sound having a first frequency spectrum that is at least partially audible with the human ear when, in response to the motion of the piston upon enabling the discharge of water from the water reservoir, an airflow occurs through said passage from the ambient to the chamber. In this embodiment the discharge of water from the toy water gun is accompanied by a sound mechanically produced by an air flow that occurs through this passage. The sound may e.g. be a flute-like sound with higher tones and/or a horn-like sound with lower tones.In an embodiment of an ambient pressure passage, or venting passage, or a chamber of the pressurization device is provided with an airflow operated sound-producing device that is adapted to provide a sound having a first frequency spectrum that is at least partially audible with the human ear when, in response to the motion of the piston upon enabling the discharge of water from the water reservoir, an airflow occurs through said passage from the ambient to the chamber. In this embodiment the discharge of water from the toy water gun is accompanied by a sound mechanically produced by an air flow that occurs through this passage. The sound may e.g. be a flute-like sound with higher tones and / or a horn-like sound with lower tones.
In an embodiment the pressurization device further comprises an exterior protrusion, e.g. at the exterior side of the wall of the cylinder through which the passage extends. Said protrusion may be provided around the passage. The protrusion is shaped to further facilitate the creation, amplification, and/or spreading of the airflow induced sound, e.g. hornshaped.In an embodiment the pressurization device further comprises an exterior protrusion, e.g. on the exterior side of the wall of the cylinder through which the passage extends. Said protrusion may be provided around the passage. The protrusion is shaped to further facilitate the creation, amplification, and / or spreading of the airflow induced sound, e.g., hornshaped.
In an embodiment of the invention, the pressure in the second portion of the pressurization chamber is above atmospheric pressure in one or more operative positions of the piston, e.g. always. In this embodiment the piston is thus during the expansion or filling of the water volume moved against the above atmospheric pressure of the chamber. In such anIn an embodiment of the invention, the pressure in the second portion of the pressurization chamber is above atmospheric pressure in one or more operative positions of the piston, e.g. always. In this embodiment the piston is thus during the expansion or filling of the water volume moved against the above atmospheric pressure of the chamber. In such an
-6embodiment the pressure in the first chamber may be substantially at atmospheric pressure, possibly in communication with ambient air, or below atmospheric pressure.-6embodiment the pressure in the first chamber may be substantial at atmospheric pressure, possibly in communication with ambient air, or below atmospheric pressure.
In an embodiment the water reservoir has a water reservoir cylinder forming a wall of said water reservoir, and a water piston that is reciprocable within said water reservoir cylinder and forms said movable wall of said water reservoir. The opposite side of the water piston may be exposed to ambient pressure as is preferred. In an embodiment a spring may act on said opposed side of the piston.In an embodiment the water reservoir has a water reservoir cylinder forming a wall of said water reservoir, and a water piston that is reciprocable within said water reservoir cylinder and forms said movable wall of said water reservoir. The opposite side of the water piston may be exposed to ambient pressure as is preferred. In an embodiment a spring may act said opposed side of the piston.
In an embodiment the piston of the pressurization device and the water piston of the water reservoir are aligned on a common axis, e.g. a common horizontal axis. For example these pistons are directly connected to one another via a rigid structure, e.g. an elongated piston rod.In an embodiment the piston of the pressurization device and the water piston of the water reservoir are aligned on a common axis, e.g. a common horizontal axis. For example, these pistons are directly connected to one another via a rigid structure, e.g., an elongated piston rod.
In an embodiment the toy water gun further comprises a water storage container, preferably an ambient pressure water storage reservoir that store a water volume at ambient pressure. In an embodiment the storage container of the water gun is adapted to store a volume of water that is significantly greater than the maximum water reservoir volume, e.g. at least 10 times greater than said water reservoir volume.In an embodiment of the toy water gun further comprises a water storage container, preferably an ambient pressure water storage reservoir that store a water volume at ambient pressure. In an embodiment the storage container or the water gun is adapted to store a volume or water that is significantly greater than the maximum water reservoir volume, e.g. at least 10 times greater than said water reservoir volume.
In an embodiment a water storage container is permanently integrated with the toy water gun or releasably mounted to the toy water gun. For example the water storage container has a fill opening for filling the water storage container with water, e.g. from a tap.In an embodiment of a water storage container is permanently integrated with the toy water gun or releasably mounted to the toy water gun. For example the water storage container has a fill opening for filling the water storage container with water, e.g. from a tap.
In an embodiment the toy water gun comprises a water pump integrated with the toy water gun, e.g. an electric motor driven water pump.In an embodiment the toy water gun comprises a water pump integrated with the toy water gun, e.g. an electric motor driven water pump.
In an embodiment the water pump has a pump inlet and a pump outlet, wherein the inlet of said water pump is in communication with a water storage container, and wherein the pump outlet of said water pump is in communication with the inlet of the water reservoir, so as to be able to provide pressurized water to said water reservoir.In an embodiment the water pump has a pump inlet and a pump outlet, says the inlet or said water pump is in communication with a water storage container, and says the pump outlet or said water pump is in communication with the inlet of the water reservoir , so as to be able to provide pressurized water to said water reservoir.
In an embodiment a water duct extends between a combined inlet and outlet, e.g. a single aperture of the cylinder of the water reservoir, on the one hand and the water discharge valve on the other hand. In an embodiment the pump outlet is connected to this water duct so that with the pump in operation and said valve closed, pressurized water is fed to the water reservoir, e.g. from a storage container of the toy water gun.In an embodiment of a water duct extends between a combined inlet and outlet, e.g. a single aperture of the cylinder of the water reservoir, on the one hand and the water discharge valve on the other hand. In an embodiment the pump outlet is connected to this water duct so with the pump in operation and said valve closed, pressurized water is fed to the water reservoir, e.g. from a storage container or the toy water gun.
-7In an embodiment said toy water gun may further comprise a water storage container and a pump. Said pump preferably has an inlet and an outlet, wherein the inlet of said pump is in communication with said water container, and wherein the outlet of said pump is in communication with the water storage volume of the water reservoir of the expandable water reservoir, so as to be able to provide pressurized water to said water storage volume of the expandable water reservoir.-7In an embodiment said toy water gun may further comprise a water storage container and a pump. Said pump preferably has an inlet and an outlet, the inlet or said pump is in communication with said water container, and the outlet or said pump is in communication with the water storage volume of the water reservoir or the expandable water reservoir, so as able to provide pressurized water to said water storage volume or the expandable water reservoir.
The toy water gun may further comprise an activator for an electric motor driven pump, e.g. a press button or switch, that can be activated, e.g. pressed or pulled, by a user to start operation of the pump.The toy water gun may further comprise an activator for an electric motor driven pump, e.g., a press button or switch, that can be activated, e.g., pressed or pulled, by a user to start operation of the pump.
The toy water gun may further comprises an electrical pump drive, e.g. including a battery, e.g. a rechargeable battery, to drive operation of the pump. This rechargeable battery may be similar to the batteries provided to a handheld electric tool, such as a drill.The toy water gun may further comprise an electrical pump drive, e.g., including a battery, e.g., a rechargeable battery, to drive operation of the pump. This rechargeable battery may be similar to the batteries provided to a handheld electric tool, such as a drill.
The toy water gun may further comprise a water fill inlet, said water fill inlet in communication with the water storage container.The toy water gun may further comprise a water fill inlet, said water fill inlet in communication with the water storage container.
The toy water gun may further comprise an outlet nozzle, said outlet nozzle in communication with the water reservoir, e.g. by means of a conduit or duct, e.g. a hose.The toy water gun may further comprise an outlet nozzle, said outlet nozzle in communication with the water reservoir, e.g. by means of a conduit or duct, e.g. a hose.
The toy water gun may comprise a trigger, said trigger movable by a user between a holding position and a discharge position. In addition, the toy water gun may comprise a discharge valve that is adapted to move from a closed position to an open position in response to a movement of the discharge control from the holding position to the discharge position.The toy water gun may include a trigger, said trigger movable by a user between a holding position and a discharge position. In addition, the toy water gun may include a discharge valve that is adapted to move from a closed position to an open position in response to a movement or the discharge control from the holding position to the discharge position.
The discharge valve may be provided in a conduit provided between the water reservoir and an outlet nozzle. Said discharge valve in the open position allows water to flow to the outlet nozzle, and prevent said water flow in the closed position.The discharge valve may be provided in a conduit provided between the water reservoir and an outlet nozzle. Said discharge valve in the open position allows water to flow to the outlet nozzle, and prevent said water flow in the closed position.
In an embodiment the water reservoir comprises a separate inlet and outlet, e.g. a separate inlet and outlet conduit connected and in communication with said water reservoir. Said inlet and outlet may each be provided with a valve that controls the passage of water.In an embodiment the water reservoir comprises a separate inlet and outlet, e.g. a separate inlet and outlet conduit connected and in communication with said water reservoir. Said inlet and outlet may be provided with a valve that controls the passage of water.
-8In another embodiment the water reservoir comprises a single combined inlet and outlet, e.g. a conduit that acts as inlet and outlet. This combined inlet and outlet may be provided with a valve to control the passage of water.-8In another embodiment the water reservoir comprises a single combined inlet and outlet, e.g. a conduit that acts as inlet and outlet. This combined inlet and outlet may be provided with a valve to control the passage of water.
The walls of the water reservoir may comprise plastic. This may be rigid, non-deformable plastic, e.g. for one or more fixed walls. An elastomer may for example be used for any seals between the fixed wall(s) and movable wall.The walls of the water reservoir may contain plastic. This may be rigid, non-deformable plastic, e.g. for one or more fixed walls. An elastomer may for example be used for any seals between the fixed wall (s) and movable wall.
Similarly, the pressurization device may comprise plastic, which may be non-deformable plastic.Similarly, the pressurization device may include plastic, which may be non-deformable plastic.
The connector structure may comprises plastic, e.g. a rigid elongate element may comprise plastic, but may e.g. also comprise metal to strengthen said elongate element.The connector structure may comprise plastic, e.g. a rigid elongate element may comprise plastic, but may also include metal to strengthen said elongate element.
In an embodiment the cylinder of the pressurization device is made at least in part transparent, e.g. of transparent plastic, e.g. coloured transparent plastic, allowing a user to witness the travel of the piston therein, thereby enhancing the user experience of the toy water gun.In an embodiment the cylinder of the pressurization device is made at least in part transparent, e.g. or transparent plastic, e.g. colored transparent plastic, allowing a user to witness the travel of the piston therein, enhance the user experience of the toy water gun.
The first aspect of the invention also relates to a toy water gun comprising:The first aspect of the invention also relates to a toy water gun including:
- a water discharge outlet,- a water discharge outlet,
- a discharge valve controlling discharge of water from said water discharge outlet, e.g. a trigger controlled discharge valve,- a discharge valve controlling discharge of water from said water discharge outlet, e.g. a trigger controlled discharge valve,
- a water reservoir having an inlet and an outlet, said water reservoir comprising a water cylinder and a reciprocable water piston in said cylinder enclosing a variable water volume in said water reservoir,- a water reservoir having an inlet and an outlet, said water reservoir including a water cylinder and a reciprocable water piston in said cylinder enclosing a variable water volume in said water reservoir,
- a pressurization device comprising a pressurization cylinder, wherein a piston is reciprocable in said pressurization cylinder and defines in said cylinder a first chamber and a second chamber on opposite sides of said piston, wherein said first and second chambers are filled with a gas, e.g. air, wherein said piston is movable in response to a difference in gas pressure between the first chamber and second chamber, and- a pressurization device including a pressurization cylinder, where a piston is reciprocable in said pressurization cylinder and defines in said cylinder a first chamber and a second chamber on opposite sides of said piston, said first and second chambers are filled with a gas, eg air, said said piston is movable in response to a difference in gas pressure between the first chamber and second chamber, and
- a connector structure, e.g. a piston rod, that connects the water piston of the water reservoir to the piston of the pressurization device, wherein said pressurization device is embodied such that, when discharge of water from said water reservoir is prevented by said discharge valve and pressurized water is being fed into said water reservoir via the inlet thereof, said pressurized water exerts a force on said water piston so as to enlarge said water volume, which in turn causes enlargement of the volume- a connector structure, eg a piston rod, that connects the water piston or the water reservoir to the piston or the pressurization device, said said pressurization device is embodied such, when discharge of water from said water reservoir is prevented by said discharge valve and pressurized water is being fed into said water reservoir through the inlet, said pressurized water exerts a force on said water piston so as to increase said water volume, which in turn causes enlargement of the volume
-9of the first chamber of said pressurization device and reduction of the volume of the second chamber of said pressurization device thereby the gas pressure in the first chamber becoming lower than the gas pressure in the second chamber thereof thus exerting a force on said piston so as to reduce the volume of the first chamber which is transmitted via said connector structure to said water piston so as to pressurize said water in said water reservoir, such that when discharge of water from said water reservoir is subsequently enabled by said discharge valve, said pressurization device pressurizes said water that is discharged from said water reservoir.-9of the first chamber of said pressurization device and reduction of the volume of the second chamber of said pressurization device and the gas pressure in the first chamber becoming lower than the gas pressure in the second chamber thus thus exerting a force on said piston so as to reduce the volume of the first chamber which is transmitted via said connector structure to said water piston so as to pressurize said water in said water reservoir, such that when discharge of water from said water reservoir is enabled by said discharge valve, said pressurization device pressurizes said water that is discharged from said water reservoir.
The first aspect of the invention also relates to a toy water gun with a water reservoir assembly comprising:The first aspect of the invention also relates to a toy water gun with a water reservoir assembly comprising:
- a water reservoir having a movable wall allowing variation of a water volume- a water reservoir having a movable wall allowing variation of a water volume
- a pressurization device with a pressurization cylinder wherein a piston is reciprocable defining first and second chambers, wherein the piston is movable in response to a difference in gas pressure between the first chamber and second chamber, and- a pressurization device with a pressurization cylinder with a piston is reciprocable defining first and second chambers, where the piston is movable in response to a difference in gas pressure between the first chamber and second chamber, and
- a connector structure that connects the movable wall of the water reservoir to the piston of the pressurization device.- a connector structure that connects the movable wall of the water reservoir to the piston or the pressurization device.
The pressurization device pressurizes water that is discharged from the water reservoir.The pressurization device pressurizes water that is discharged from the water reservoir.
The present invention also relates to a method to store pressurized water, wherein use is made of a toy water gun according to the disclosure.The present invention also relates to a method to store pressurized water, where use is made of a toy water gun according to the disclosure.
According to a second aspect, the invention relates to a toy water gun comprising a water discharge outlet and a discharge valve controlling discharge of water from said water discharge outlet, e.g. a trigger controlled discharge valve.According to a second aspect, the invention relates to a toy water gun including a water discharge outlet and a discharge valve controlling discharge of water from said water discharge outlet, e.g. a trigger controlled discharge valve.
Sound-producing elements comprised in toy water guns are known. These are for instance electrical units, possibly battery-powered, that e.g. produce machine gun sound effects together with the discharge of water. Also units producing sound through mechanical motion of components are known, e.g. from US4757946, GB1063146 and US5662244. The creation of sound is in these prior art sound-producing elements induced by the movement of the trigger of the toy water gun.Sound-producing elements comprised in toy water guns are known. These are for instance electrical units, possibly battery-powered, that for example produce machine gun sound effects together with the discharge of water. Also units producing sound through mechanical motion or components are known, e.g. from US4757946, GB1063146 and US5662244. In these prior art, the creation of sound is sound-producing elements induced by the movement of the trigger of the toy water gun.
It is an object of the second aspect of the invention to provide an alternative soundproducing device in a toy water gun.It is an object of the second aspect of the invention to provide an alternative sound-producing device in a toy water gun.
-10According to the second aspect of the invention a toy water gun comprises:-10According to the second aspect of the invention a toy water gun comprises:
- a water discharge outlet,- a water discharge outlet,
- a discharge valve controlling discharge of water from said water discharge outlet, e.g. a trigger controlled discharge valve,- a discharge valve controlling discharge of water from said water discharge outlet, e.g. a trigger controlled discharge valve,
- a variable volume chamber that has a volume and that is in communication with the ambient air via a passage, wherein said volume of said variable volume chamber is dependent on discharge of water from said water discharge outlet such that upon discharge of water air passes through said passage into or out of said variable volume chamber, wherein said passage is provided with an airflow operated sound-producing device being adapted to provide a water discharge related sound having a first frequency spectrum that is at least partially audible with the human ear when, in response to the discharge of water from the toy water gun, an airflow occurs through said sound-producing device.- a variable volume chamber that has a volume and that is in communication with the ambient air via a passage, said said volume or said variable volume chamber is dependent on discharge or water from said water discharge outlet such that upon discharge or water air passes through said passage into or out of said variable volume chamber, said said passage is provided with an airflow operated sound-producing device being adapted to provide a water discharge related sound having a first frequency spectrum that is at least partially audible with the human ear when, in response to the discharge of water from the toy water gun, an airflow occurs through said sound-producing device.
Possible advantages of said sound-producing design according to the invention are that no batteries are needed for production of the sound, and that no complex and/or costly moving elements are needed, thereby saving costs and/or reducing the chance of malfunctioning/failure of the sound-producing element.Possible advantages of said sound-producing design according to the invention are that no batteries are needed for production of the sound, and that no complex and / or costly moving elements are needed, saving saving costs and / or reducing the chance of malfunctioning / failure or the sound-producing element.
Whereas in the toy water guns of the prior art the sound-producing element is generally mechanically operated or electrically activated by the pulling of the trigger, in the invention the sound is produced as a result of an airflow caused by water discharge, e.g. as a water reservoir in the water gun is then reduced in volume and the variable volume chamber is simultaneously increased in volume so that air streams through the passage and the soundproducing device.The sound-producing element is generally mechanically operated or electrically activated by the pulling of the trigger, in the invention the sound is produced as a result of an airflow caused by water discharge, eg as a water reservoir in the water gun is then reduced in volume and the variable volume chamber is simultaneously increased in volume so that air streams through the passage and the sound-producing device.
In an embodiment the toy water gun comprises an expandable water reservoir, that is expandable from a relaxed state occupying a relaxation volume to an expanded state occupying an additional expansion volume, and compressible from said expanded state occupying said additional expansion volume back to said relaxed state occupying said relaxation volume, e.g. said reservoir having a resilient material body that is internal water pressure expandable and self-compressing, wherein the toy water gun further comprises a housing, and wherein said variable volume chamber is delimited between said housing and said expandable water reservoir, wherein said housing is provided with said passage and said sound-producing device is adapted to provide said water discharge related sound as in response to the compression of the expandable water reservoir from the expanded state to said relaxed state an airflow occurs through the passage from the exterior into said variable volume chamber.In an embodiment the toy water gun comprises an expandable water reservoir, which is expandable from a relaxed state occupying a relaxation volume to an expanded state occupying an additional expansion volume, and compressible from said expanded state occupying said additional expansion volume back to said relaxed state occupying said relaxation volume, eg said reservoir having a resilient material body that is internal water pressure expandable and self-compressing, the toy water gun further comprises a housing, and said variable volume chamber is delimited between said housing and said expandable water reservoir said said housing is provided with said passage and said sound-producing device is adapted to provide said water discharge related sound as in response to the compression of the expandable water reservoir from the expanded state to said relaxed state an airflow occurs through the passage from the exterior into said variable volume chamber.
-11In an embodiment the toy water gun comprises a pressurization device comprising a pressurization cylinder, wherein a piston is reciprocable in said cylinder and defines in said cylinder a first chamber on one side of said piston and a second chamber on the opposite side of said piston, wherein said first and second chambers are filled with a gas, e.g. air, wherein said piston is movable in response to a difference in gas pressure between the first chamber and second chamber, and wherein one of said chambers is in communication with the ambient air by means of a passage extending through a wall of said cylinder, wherein said passage is provided with said airflow operated sound-producing device being adapted to provide a sound having a first frequency spectrum that is at least partially audible with the human ear when, in response to the discharge of water from the toy water gun, an air flow occurs through said soundproducing device from the ambient to said chamber. Said pressurization device may be part of a toy water gun having one or more details as described in the first aspect of the invention.-11In an embodiment of the toy water gun comprises a pressurization device including a pressurization cylinder, where a piston is reciprocable in said cylinder and defines in said cylinder a first chamber on one side of said piston and a second chamber on the opposite side of said piston said said first and second chambers are filled with a gas, eg air, said said piston is movable in response to a difference in gas pressure between the first chamber and second chamber, and one of said chambers is in communication with the ambient air by means of a passage extending through a wall of said cylinder, said said passage is provided with said airflow operated sound-producing device being adapted to provide a sound having a first frequency spectrum that is at least partially audible with the human ear when, in response to the discharge of water from the toy water gun, an air flow occurs through said sound producing device from the ambient to said chamber. Said pressurization device may be part of a toy water gun having one or more details as described in the first aspect of the invention.
In an embodiment a sound-producing housing is provided around an expandable water reservoir. The expandable water reservoir is in such an embodiment expandable in response to a pressure exerted thereon by water, e.g. pressurized water, received within said reservoir and compressible from said expanded state occupying said additional expansion volume back to said relaxed state occupying said relaxation volume upon discharge of said water from said reservoir.In an embodiment of a sound-producing housing, there is provided around an expandable water reservoir. The expandable water reservoir is in such an expandable in response to a pressure exerted thereon by water, eg pressurized water, received within said reservoir and compressible from said expanded state occupying said additional expansion volume back to said relaxed state occupying said relaxation volume upon discharge or said water from said reservoir.
In an embodiment a sound-producing housing can alternatively be provided around an expandable gas, e.g. air, reservoir.In an embodiment of a sound-producing housing can alternatively be provided around an expandable gas, e.g. air, reservoir.
In an embodiment, the frequency of the discharge sound is dependent on the rate of discharge of water from the toy water gun, e.g. from said expandable reservoir. The rate of discharge from said expandable reservoir determines the rate of compression of said expandable reservoir, which in turn determines the rate of air flow through the passage. When said rate of air flow changes, the frequency of the accompanying sound may be altered.In an embodiment, the frequency of the discharge sound is dependent on the rate of discharge or water from the toy water gun, e.g. from said expandable reservoir. The rate of discharge from said expandable reservoir, the rate of compression or said expandable reservoir, which in turn, determine the rate of air flow through the passage. When said rate of air flow changes, the frequency or the accompanying sound may be altered.
In an embodiment the sound-producing device is also adapted to provide a filling sound having a frequency spectrum that is at least partially audible with the human ear when during filling of a water reservoir of the water gun, e.g. expansion of the expandable reservoir, an air flow occurs through the passage. In an embodiment said airflow during filling is opposite in direction to said airflow during water discharge, said difference in direction causing differentIn an embodiment the sound-producing device is also adapted to provide a filling sound having a frequency spectrum that is at least partially audible with the human ear when during filling of a water reservoir or the water gun, eg expansion of the expandable reservoir, an air flow occurs through the passage. In an embodiment said airflow during filling is opposite in direction to said airflow during water discharge, said difference in direction causing different
-12sounds for discharge and filling. In another embodiment two distinct sound-producing devices are present, one responsive to and operated by an airflow related to water discharge and the other response to and operated by an airflow related to filling of a water reservoir of the toy water gun. In embodiments the discharge sound and the filling sound are different, e.g. said filling sound may have a frequency spectrum different from the discharge sound.-12sounds for discharge and filling. In another embodiment two distinct sound-producing devices are present, one responsive to and operated by an airflow related to water discharge and the other response to and operated by an airflow related to filling of a water reservoir or the toy water gun. In discharge the discharge sound and the filling sound are different, e.g. said filling sound may have a frequency spectrum different from the discharge sound.
In an embodiment, the toy water gun comprises an external protrusion on the exterior thereof. Said protrusion may be provided around the passage so as to extend said passage. In embodiments said protrusion facilitates the creation, amplification, and/or spreading of said sound, e.g. said protrusion being horn-shaped or flute-shaped.In an embodiment, the toy water gun comprises an external protrusion on the exterior. Said protrusion may be provided around the passage so as to extend said passage. In predicted protrusion facilitates the creation, amplification, and / or spreading of said sound, e.g. said protrusion being horn-shaped or flute-shaped.
In an embodiment a housing of the toy water gun comprises an attachment portion, wherein a first airflow operated sound-producing device is detachable from and attachable to said attachment portion, and wherein a second airflow operated sound-producing device is provided that is exchangeable for said first airflow operated sound-producing device and also is detachable from and attachable to said attachment portion, e.g. said first and second airflow operated sound-producing devices having different sounds.In an embodiment of a housing of the toy water gun comprises an attachment portion, a first airflow operated sound-producing device is detachable from an attachable to said attachment portion, and a second airflow operated sound-producing device is provided that is exchangeable for said first airflow operated sound-producing device and also is detachable from and attachable to said attachment portion, eg said first and second airflow operated sound-producing devices having different sounds.
The sound-producing device may for instance comprise a portion of the housing around the passage and/or a protrusion, e.g. a horn-shaped protrusion.The sound-producing device may include a portion of the housing around the passage and / or a protrusion, e.g. a horn-shaped protrusion.
Said first and/or second sound-producing device may be detachable and attachable by e.g. a click-system, e.g. by the provision of threaded end portions to the attachment portion and detachable device , e.g. by a bayonet mount.Said first and / or second sound-producing device may be detachable and attachable by e.g. a click system, e.g. by the provision of threaded end portions to the attachment portion and detachable device, e.g. by a bayonet mount.
The second aspect of the invention also relates to a sound-producing system for use with a toy water gun, wherein a variable volume chamber is delimited in the water toy gun, said system comprising:The second aspect of the invention also relates to a sound-producing system for use with a toy water gun, with a variable volume chamber being delimited in the water toy gun, said system including:
- a first sound source comprising a first airflow operated sound-producing device attached or to be attached to the toy water gun, wherein said first sound source may be detachable from and attachable to a common attachment portion of the toy water gun, wherein said first airflow operated sound-producing device is adapted to provide a water discharge and/or filling related sound having a first frequency spectrum that is at least partially audible with the human ear when, in response to the discharge of water from the toy water gun and/or filling water into a water reservoir of the toy water gun, an air flow occurs through said first soundproducing device,- a first sound source including a first airflow operated sound-producing device attached or to be attached to the toy water gun, said said first sound source may be detachable from and attachable to a common attachment portion of the toy water gun, said said first airflow operated sound-producing device is adapted to provide a water discharge and / or filling related sound having a first frequency spectrum that is at least partially audible with the human ear when, in response to the discharge of water from the toy water gun and / or filling water into a water reservoir or the toy water gun, an air flow occurs through said first sound-producing device,
-13- a second sound source comprising a second airflow operated sound-producing device attached or to be attached to the toy water gun, wherein said second sound source may be detachable from and attachable to said common attachment portion of the toy water gun, wherein the second airflow operated sound-producing device is adapted to provide a discharge sound and/or a filling sound having a frequency spectrum that is at least partially audible with the human ear when in response to water discharge from the water toy gun and/or filling of a water reservoir of the water toy gun an air flow occurs through said second sound-producing device , wherein the frequency spectrum of the second airflow operated sound-producing device is different from the frequency spectrum of the first airflow operated sound-producing device.-13- a second sound source including a second airflow operated sound-producing device attached or to be attached to the toy water gun, said said second sound source may be detachable from and attachable to said common attachment portion of the toy water gun, the second airflow operated sound-producing device is adapted to provide a discharge sound and / or a filling sound having a frequency spectrum that is at least partially audible with the human ear when in response to water discharge from the water toy gun and / or filling or a water reservoir or the water toy gun an air flow occurs through said second sound-producing device, the frequency spectrum or the second airflow operated sound-producing device is different from the frequency spectrum or the first airflow operated sound-producing device.
The sound-producing system thus comprises a second sound source, that may in an embodiment be used to replace the first sound source and vice versa. In this way, a user may choose a sound that he/she likes, or may choose the same sound as other users of the sound-producing housing have chosen, so as to form a team that uses the same sound.The sound-producing system thus comprises a second sound source, that may be used to replace the first sound source and vice versa. In this way, a user may choose a sound that he / she likes, or may choose the same sound as other users or the sound-producing housing have chosen, so as to form a team that uses the same sound.
Said second device may, similar to the first device be detachable and attachable by e.g. a click-system,, by the provision of threaded end portion, by a bayonet mount, to the common attachment portion.Said second device may, similar to the first device be detachable and attachable by e.g. a click system, by the provision of threaded end portion, by a bayonet mount, to the common attachment portion.
The second aspect of the invention also relates to a method to provide sound to a toy water gun, said method making use of a toy water gun according to the disclosure.The second aspect of the invention also relates to a method to provide sound to a toy water gun, said method making use of a toy water gun according to the disclosure.
According to a third aspect the invention relates to a toy water gun with a pulsating discharge mode.According to a third aspect the invention relates to a toy water gun with a pulsating discharge mode.
Pulsating toy water guns are known in the art, e.g. from US20080277413 and US6123229.Pulsating toy water guns are known in the art, e.g. from US20080277413 and US6123229.
US20080277413 discloses a toy water gun comprising an inlet for water, a first water reservoir in communication with said inlet and an outlet nozzle, wherein said nozzle is in communication with the first water reservoir through a conduit. US20080277413 furthermore discloses a pressurized second water reservoir in communication with the conduit and provided between the first water reservoir and the outlet nozzle and a trigger movable by a user between a holding position and a discharge position. In addition, US20080277413 discloses a discharge valve provided in the conduit between the first water reservoir and the second water reservoir, wherein said discharge valve is adapted to move from a closed position to an open position in response to a movement of the trigger from the holdingUS20080277413 discloses a toy water gun including an inlet for water, a first water reservoir in communication with said inlet and an outlet nozzle, said nozzle is in communication with the first water reservoir through a conduit. US20080277413 furthermore discloses a pressurized second water reservoir in communication with the conduit and provided between the first water reservoir and the outlet nozzle and a trigger movable by a user between a holding position and a discharge position. In addition, US20080277413 discloses a discharge valve provided in the conduit between the first water reservoir and the second water reservoir, said discharge valve is adapted to move from a closed position to an open position in response to a movement of the trigger from the holding
-14position to the discharge position, wherein said discharge valve in the open position allows water to flow to the second water reservoir. The toy water gun of US20080277413 is adjustable by a user to a pulsed-mode setting wherein, when the first water reservoir has been filled with a water and the trigger is moved to and kept in the discharge position, the pressure of water in the conduit is such that the self-closing outlet nozzle only opens when the second water reservoir is filled, e.g. partially filled, with the water from said first water reservoir. Moreover, upon opening of the outlet nozzle at least part of the water in the second water reservoir is discharged through said outlet nozzle, after which discharge the second water reservoir is again filled with water from the first water reservoir, and wherein a repetition of said filling and discharging creates a pulsed discharge of water through said outlet nozzle.-14 position to the discharge position, said discharge valve in the open position allows water to flow to the second water reservoir. The toy water gun or US20080277413 is adjustable by a user to a pulsed-mode setting when the first water reservoir has been filled with a water and the trigger is moved to and kept in the discharge position, the pressure of water in the conduit is such that the self-closing outlet only opens when the second water reservoir is filled, eg partially filled, with the water from said first water reservoir. Moreover, upon opening of the outlet nozzle at least part of the water in the second water reservoir is discharged through said outlet nozzle, after which discharge the second water reservoir is again filled with water from the first water reservoir, and with a repetition of said filling and discharging creates a pulsed discharge or water through said outlet nozzle.
US6123229 discloses a toy water gun with a pulsating discharge mode comprising a selfclosing outlet nozzle.US6123229 discloses a toy water gun with a pulsating discharge mode including a self-closing outlet nozzle.
According to the third aspect of the present invention, a toy water gun is provided comprising:According to the third aspect of the present invention, a toy water gun is provided including:
- an inlet for water, e.g. for pressurized water,an inlet for water, e.g. for pressurized water,
- a first water reservoir in communication with said inlet,- a first water reservoir in communication with said inlet,
- a self-closing outlet nozzle, said self-closing outlet nozzle in communication with the first water reservoir through a conduit, wherein said self-closing outlet nozzle opens in response to an opening pressure exerted on said nozzle by a water in said conduit, thereby allowing said water to be discharged from the toy water gun through said nozzle,- a self-closing outlet nozzle, said self-closing outlet nozzle in communication with the first water reservoir through a conduit, said self-closing outlet nozzle opens in response to an opening pressure exerted on said nozzle by a water in said conduit, allow allowing said water to be discharged from the toy water gun through said nozzle,
- a pressurized second water reservoir in communication with the conduit and provided between the first water reservoir and the self-closing outlet nozzle,- a pressurized second water reservoir in communication with the conduit and provided between the first water reservoir and the self-closing outlet nozzle,
- a throttle component provided in said conduit (304) in between the first and the second water reservoirs, said throttle component adapted to adjust a flow rate and pressure of water in the conduit,,- a throttle component provided in said conduit (304) in between the first and the second water reservoirs, said throttle component adapted to adjust a flow rate and pressure of water in the conduit ,,
- a trigger operable by a user and having a holding position and a discharge position, and- a trigger operable by a user and having a holding position and a discharge position, and
- a discharge valve provided in the conduit between the second water reservoir and the selfclosing outlet nozzle, said discharge valve being switchable between a closed position and an opened position by operation of the trigger, said discharge valve in the opened position allowing water to flow to the self-closing outlet nozzle, wherein the throttle component provides a pulsed-mode throttle setting providing a repetitive water pulses discharge mode of the toy water gun so that, with the trigger moved and kept in the discharge position and thus the discharge valve in opened position, a repetitive sequence is caused wherein, if the second water reservoir is filled with water at or above said opening- a discharge valve provided in the conduit between the second water reservoir and the self-closing outlet nozzle, said discharge valve being switchable between a closed position and an opened position by operation of the trigger, said discharge valve in the opened position allowing water to flow to the self-closing outlet nozzle, the throttle component provides a pulsed-mode throttle setting providing a repetitive water pulses discharge mode of the toy water gun so that, with the trigger moved and kept in the discharge position and thus the discharge valve in opened position, a repetitive sequence is caused, if the second water reservoir is filled with water at or above said opening
-15pressure of the nozzle, a pulse of water is discharged from said nozzle entailing the expulsion of a portion of water from said second water reservoir, until said nozzle closes, and subsequently said second water reservoir is replenished with water from said first water reservoir via said throttle component in said pulsed-mode throttle setting whilst said nozzle remains closed until said water in the second reservoir reaches a pressure at or above the opening pressure of the nozzle.-15 pressure of the nozzle, a pulse of water is discharged from said nozzle and the expulsion of a portion of water from said second water reservoir, until said nozzle closes, and said said second water reservoir is replenished with water from said first water reservoir via said throttle component in said pulsed-mode throttle setting while said nozzle remains closed until said water in the second reservoir reaches a pressure at or above the opening pressure of the nozzle.
The inventors have realized that a drawback of US2008/0277413 is that the discharge valve is provided between the first and the second reservoir. As a result of this positioning of the discharge valve, after the trigger has been moved to and kept in the discharge position the second reservoir first has to be filled before water can be discharged from the outlet nozzle.The inventors have realized that a drawback or US2008 / 0277413 is that the discharge valve is provided between the first and the second reservoir. As a result of this positioning of the discharge valve, after the trigger has been moved to and kept in the discharge position the second reservoir first has been filled before water can be discharged from the outlet nozzle.
In the toy water gun according to the invention the discharge valve is provided in between the second water reservoir and the self-closing nozzle. Consequently, the second water reservoir can already be sufficiently, e.g. completely, filled before said discharge valve is moved to the open position, thereby allowing a more rapid response of the toy water gun upon movement of the trigger to the discharge position.In the toy water gun according to the invention the discharge valve is provided in between the second water reservoir and the self-closing nozzle. Twenty, the second water reservoir can already be sufficient, e.g. completely, filled before said discharge valve is moved to the open position, allowing a more rapid response of the toy water gun upon movement or the trigger to the discharge position.
The self-closing nozzle of the toy water gun according to the invention may, as is preferred, exhibit hysteretic behaviour, in that the nozzle remains closed at a certain first pressure, opens at a critical pressure that exceeds that first pressure, but then remains open at a range of pressures below said critical pressure. In this way the pressurized second reservoir can first be filled, wherein the self-closing outlet nozzle remains closed, and can subsequently be emptied, wherein during the discharge of the pulse of water the self-closing nozzle remains open.The self-closing nozzle of the toy water gun according to the invention may, as is preferred, exhibit hysteretic behavior, in that the nozzle remains closed at a certain first pressure, opens at a critical pressure that exceeds that first pressure, but then remains open at a range of pressures below said critical pressure. In this way the pressurized second reservoir can be filled first, the self-closing nozzle remains closed, and can be continued, during the discharge of the pulse of water, the self-closing nozzle remains open.
In an embodiment the toy water gun further comprises pressurization means to pressurize the water in said conduit, wherein said pressurization means are comprised in said first water reservoir or in said conduit between the first reservoir and the throttle component. As an example the pressurization means may be embodied as a water pump provided in the conduit in between the first water reservoir and the throttle component. As another example the pressurization means may be provided by embodying said first water reservoir as a pressurized water reservoir.In an embodiment of the toy water gun further comprises pressurization means to pressurize the water in said conduit, said said pressurization means are included in said first water reservoir or in said conduit between the first reservoir and the throttle component. As an example the pressurization means may be embodied as a water pump provided in the conduit in between the first water reservoir and the throttle component. As another example the pressurization means may be provided by embodying said first water reservoir as a pressurized water reservoir.
The term ‘pressurized water reservoir’ here in the third aspect of the invention indicates that the reservoir is able to maintain, e.g. partly maintain, the above atmospheric pressurization of the water that is provided to the water reservoir or that further pressure may be built in theThe term 'pressurized water reservoir' here in the third aspect of the invention indicates that the reservoir is able to maintain, eg partly maintain, the above atmospheric pressurization of the water that is provided to the water reservoir or that further pressure may be built in the
-16reservoir. Concerning the latter embodiment, the pressurized water reservoir may be an expandable water reservoir, e.g. expanding a water volume against a movable wall, piston or elastomeric material, as said ability to expand preserves the pressure provided to the water. Concerning the former embodiment, further pressure may be built e.g. by the insertion of gas to a reservoir with a fixed volume. The addition of said gas increases the pressure of the water in said reservoir, thereby creating a pressurized water reservoir.-16 reservoir. Concerning the latter number, the pressurized water reservoir may be an expandable water reservoir, e.g. expanding a water volume against a movable wall, piston or elastomeric material, said said ability to expand preserves the pressure provided to the water. Concerning the former embodiment, further pressure may be built e.g. by the insertion of gas to a reservoir with a fixed volume. The addition of said gas increases the pressure of the water in said reservoir, creating a pressurized water reservoir.
The inlet for water may e.g. be an aperture that can be sealed by a cap. Said inlet may be provided directly on the first water reservoir, but can also be provided at a distance from said first water reservoir and in communication with said first reservoir, e.g. by a conduit. The inlet may be connectable to a standard type nozzle of a water hose.The inlet for water may e.g. be an aperture that can be sealed by a cap. Said inlet may be provided directly on the first water reservoir, but may also be provided at a distance from said first water reservoir and in communication with said first reservoir, e.g. by a conduit. The inlet may be connectable to a standard nozzle type or a water hose.
The first reservoir may be a plastic, non-deformable reservoir. It may be provided with a water level indicator or it may be partly transparent so as to allow a user to see the water level in the reservoir.The first reservoir may be a plastic, non-deformable reservoir. It may be provided with a water level indicator or it may be partly transparent so as to allow a user to see the water level in the reservoir.
In an embodiment the first water reservoir is embodied as a first expandable water reservoir expandable in response to a pressure exerted thereon by a pressurized water received in said reservoir, e.g. said first water reservoir being embodied as an expandable body, e.g. a bladder, e.g. comprising an elastomeric material.In an embodiment the first water reservoir is embodied as a first expandable water reservoir is expandable in response to a pressure exerted thereon by a pressurized water received in said reservoir, eg said first water reservoir being embodied as an expandable body, eg a bladder, eg included an elastomeric material.
The self-closing nozzle may be self-closing through the use of suitable flexible material of which said nozzle is formed, or by use of a flexible material in combination with a (metal or plastic) springs or other resilient elements.The self-closing nozzle may be self-closing through the use of suitable flexible material or which said nozzle is formed, or by use of a flexible material in combination with a (metal or plastic) springs or other resilient elements.
The throttle component may be embodied for adjustment by a user. The throttle component may be adjustable to two settings or more than two settings, e.g. four settings. Said throttle component may be continuously adjustable between two extreme settings.The throttle component may be embodied for adjustment by a user. The throttle component may be adjustable to two settings or more than two settings, e.g. four settings. Said throttle component may be continuously adjustable between two extreme settings.
The trigger may be embodied as a trigger of a gun, that is, as an movable element that a user can pull backward with one of its fingers to initiate a discharge. However, the trigger may also be differently shaped, for instance as a push button or a pinchable object.The trigger may be embodied as a trigger or a gun, that is, as a movable element that a user can pull backward with one of its fingers to initiate a discharge. However, the trigger may also be differently shaped, for instance as a push button or a pinchable object.
The trigger controls the discharge valve by suitable means, e.g. electrically, e.g. mechanically through a linkage, e.g. a rigid element or through a rope connected to the trigger and discharge valve. Said discharge valve may e.g. be a ball valve, a butterfly valve or a gate valve.The trigger controls the discharge valve by suitable means, e.g. electrically, e.g. mechanically through a linkage, e.g. a rigid element or through a rope connected to the trigger and discharge valve. Said discharge valve may e.g. be a ball valve, a butterfly valve or a gate valve.
-17In an embodiment the pressurized second water reservoir is an expandable second water reservoir expandable in response to a pressure exerted thereon by pressurized water received in said second reservoir, e.g. said second water reservoir being embodied as an expandable bladder comprising an elastomeric material.-17 In an embodiment of the pressurized second water reservoir is an expandable second water reservoir expandable in response to a pressure exerted thereon by pressurized water received in said second reservoir, e.g. said second water reservoir being embodied as an expandable leaf including an elastomeric material.
In another embodiment the pressurized second water reservoir is a embodied as part of the water reservoir assembly that has been disclosed herein as encompassing said water reservoir, a pressurization device and a connector structure, wherein the discharge of water from said water reservoir is prevented and enabled by the self-closing nozzle valve. Thus, the water reservoir and any related features according to the first aspect of the invention may be included in the toy water gun according to the third aspect of the invention.In another embodiment the pressurized second water reservoir is a embodied as part of the water reservoir assembly that has been disclosed as encompassing said water reservoir, a pressurization device and a connector structure, the discharge of water from said water reservoir is prevented and enabled by the self-closing nozzle valve. Thus, the water reservoir and any related features according to the first aspect of the invention may be included in the toy water gun according to the third aspect of the invention.
In an embodiment the communication of the second water reservoir with the conduit is provided by a single connector conduit that serves both as an inlet and as an outlet to the second water reservoir. The provision of a single connector conduit facilitates the design of the pressurized second water reservoir.In an embodiment the communication of the second water reservoir with the conduit is provided by a single connector conduit that serves both as an inlet and as an outlet for the second water reservoir. The provision of a single connector conduit facilitates the design of the pressurized second water reservoir.
In an embodiment the self-closing outlet nozzle is in the pulsed-mode setting of the throttle component adapted to close after a discharge of water only when the second water reservoir is substantially empty of water, e.g. when at least 80% of the water that was in the second water reservoir has been discharged. To this end the self-closing outlet may be adapted by a suitable choice of materials.In an embodiment the self-closing outlet nozzle is in the pulsed-mode setting of the throttle component adapted to close after a discharge or water only when the second water reservoir is substantially empty of water, eg when at least 80% of the water that was in the second water reservoir has been discharged. To this end the self-closing outlet may be adapted by a suitable choice of materials.
In an embodiment in the pulsed-mode setting of the throttle component the self-closing outlet nozzle only opens when the second water reservoir is fully filled with water and the second water reservoir has expanded in response to the pressure exerted thereon by the water received in the second water reservoir. This behaviour may be realized by a suitable choice of self-closing outlet nozzle and expansion characteristics of the second water reservoir.In an embodiment in the pulsed-mode setting of the throttle component the self-closing outlet nozzle only opens when the second water reservoir is fully filled with water and the second water reservoir has expanded in response to the pressure exerted thereon by the water received in the second water reservoir. This behavior may be realized by a suitable choice or self-closing outlet nozzle and expansion characteristics of the second water reservoir.
In an embodiment the throttle component provides for and can be brought into a continuousmode setting wherein, when the first water reservoir has been filled with a water and the discharge control is moved to and kept in the discharge position, the pressure of water in the conduit is such that the self-closing outlet nozzle is in response to the pressure exerted thereon by the water from said first water reservoir continuously open, so as to create a continuous discharge of water through said self-closing outlet nozzle.In an embodiment the throttle component provides for and can be brought into a continuous mode setting, when the first water reservoir has been filled with a water and the discharge control is moved to and kept in the discharge position, the pressure of water in the conduit is such that the self-closing outlet nozzle is in response to the pressure exerted thereon by the water from said first water reservoir continuously open, so as to create a continuous discharge or water through said self-closing outlet nozzle.
-18In this embodiment the discharge of water occurs both in the pulsed-mode setting and in the continuous-mode setting through the same self-closing outlet nozzle. Thus, in the pulsedmode setting and in the continuous-mode setting the water follows substantially the same flow path through the toy water gun.-18 In this embodiment the discharge of water occurs both in the pulsed-mode setting and in the continuous-mode setting through the same self-closing outlet nozzle. Thus, in the pulsedmode setting and in the continuous mode setting the water follows substantially the same flow path through the toy water gun.
In an embodiment the self-closing outlet nozzle is embodied as a unitary self-closing outlet nozzle, e.g. with a slit valve.In an embodiment the self-closing outlet nozzle is embodied as a unitary self-closing outlet nozzle, e.g. with a slit valve.
The third aspect of the invention also relates to a method to discharge water from a toy water gun in a pulsating manner, wherein said method makes use of a toy water gun according to the disclosure.The third aspect of the invention also relates to a method for discharge water from a toy water gun in a pulsating manner, said method makes use of a toy water gun according to the disclosure.
According to a fourth aspect of the invention, the invention relates to a toy water gun system comprising a toy water gun and a filling station.According to a fourth aspect of the invention, the invention relates to a toy water gun system including a toy water gun and a filling station.
Toy water gun systems comprising a toy water gun and a filling station are known in the art, e.g. from US20100269953. This document discloses a toy water gun system comprising a toy water gun and a filling station. The toy water gun comprises a water reservoir, a water inlet to provide water to said water reservoir, an outlet nozzle in communication with said water reservoir and a discharge control operable by a user to allow water to be controllably discharged from said water reservoir via said nozzle. The filling station comprises a water inlet and a water outlet in communication with said inlet. The water inlet of the toy water gun is attachable to said water outlet of the filling station so as to allow communication between said water outlet and water inlet, and wherein said water inlet of the toy water gun is detachable from said water outlet.Toy water gun systems including a toy water gun and a filling station are known in the art, e.g. from US20100269953. This document discloses a toy water gun system including a toy water gun and a filling station. The toy water gun comprises a water reservoir, a water inlet to provide water to said water reservoir, an outlet nozzle in communication with said water reservoir and a discharge control operable by a user to allow water to be controllably discharged from said water reservoir via said nozzle. The filling station comprises a water inlet and a water outlet in communication with said inlet. The water inlet or the toy water gun is attachable to said water outlet or the filling station so as to allow communication between said water outlet and water inlet, and said said water inlet or the toy water gun is detachable from said water outlet.
In operation a water hose that is connected to the water mains is connected to the water inlet of the filling station of US20100269953. The device of US20100269953 can thus be used together with a water hose and while in the vicinity of a water mains connection. The filling station does not comprise any pressurization means, such as a water pump, so that the pressure of the water in the filling station and in the toy water gun is limited to the pressure provided by the water mains.In operation a water hose that is connected to the water mains is connected to the water inlet or the filling station or US20100269953. The device of US20100269953 can thus be used together with a water hose and while in the vicinity of a water mains connection. The filling station does not include any pressurization means, such as a water pump, so that the pressure of the water in the filling station and in the toy water gun is limited to the pressure provided by the water mains.
The present invention aims to provide an improved toy water gun system comprising a toy water gun and a filling station.The present invention aims to provide an improved toy water gun system including a toy water gun and a filling station.
-19According the invention, a toy water gun system is provided, wherein said toy water gun system comprises a toy water gun and a filling station. The toy water gun comprises an expandable water reservoir that is expandable in response to a pressure exerted thereon by pressurized water received in said reservoir, a water inlet to provide pressurized water to said expandable water reservoir, an outlet nozzle in communication with said expandable water reservoir, and a discharge control operable by a user to allow water to be controllably discharged from said expandable water reservoir via said nozzle.-19According to the invention, a toy water gun system is provided, said toy water gun system comprises a toy water gun and a filling station. The toy water gun comprises an expandable water reservoir that is expandable in response to a pressure exerted thereon by pressurized water received in said reservoir, a water inlet to provide pressurized water to said expandable water reservoir, an outlet nozzle in communication with said expandable water reservoir , and a discharge control operable by a user to allow water to be controllably discharged from said expandable water reservoir via said nozzle.
The filling station comprises a water inlet, a water pump to pressurize the water, wherein the inlet of the pump is in communication with the water inlet, an electrical drive to electrically drive the water pump, and a water outlet to discharge water pressurized by said pump, wherein the water outlet is in communication with the water outlet of said pump. The water inlet of the toy water gun is attachable to said water outlet of the filling station so as to allow communication between said water outlet and water inlet, and wherein said water inlet of the toy water gun is detachable from said water outlet of the filling station.The filling station consists of a water inlet, a water pump to pressurize the water, the inlet of the pump is in communication with the water inlet, an electrical drive to electrically drive the water pump, and a water outlet to discharge water pressurized by said pump, the water outlet is in communication with the water outlet or said pump. The water inlet of the toy water gun is attachable to said water outlet of the filling station so as to allow communication between said water outlet and water inlet, and said said water inlet of the toy water gun is detachable from said water outlet of the filling station.
In the toy water gun system according to the invention a water pump is provided in the filling station, so that water provided to said filling station can be pressurized to a pressure that is higher than the pressure of the water at the water inlet of the filling station. Thus, said toy water gun systems allows use of toy water guns comprising an expandable water reservoir that require a high water pressure to produce a powerful discharge stream that can traverse a long distance.In the toy water gun system according to the invention a water pump is provided at the filling station, so that water provided to said filling station can be pressurized to a pressure that is higher than the pressure of the water at the water inlet of the filling station. Thus, said toy water gun systems allows use of toy water guns including an expandable water reservoir that require a high water pressure to produce a powerful discharge stream that can traverse a long distance.
In an embodiment said filling station further comprises a water tank adapted to store therein unpressurized water. Said water tank is provided in between the water inlet and the inlet of the water pump and said water tank is in communication with the water inlet and with the pump.In an embodiment said filling station further comprises a water tank adapted to store therein unpressurized water. Said water tank is provided in between the water inlet and the inlet of the water pump and said water tank is in communication with the water inlet and with the pump.
This embodiment allows use of the toy water gun system with unpressurized water. Said water may be provided to the water tank of the filling station e.g. with a water hose or with a bucket. Moreover, said water tank may be filled before transporting, e.g. carrying, the filling station to its operational location, that is, its location during the use of the toy water guns in e.g. a water fight. The filling station may however also be filled at the operational location.This embodiment allows use of the toy water gun system with unpressurized water. Said water may be provided to the water tank or the filling station e.g. with a water hose or with a bucket. Moreover, said water tank may be filled before transporting, e.g. carrying, the filling station to its operational location, that is, its location during the use of the toy water guns in e.g. a water fight. The filling station may also be filled at the operational location.
In another embodiment the water inlet is connectable to a water hose. The pump may in this embodiment act to increase the pressure of the incoming water if said pressure of the incoming water is insufficient for the operation of the toy water gun.In another embodiment the water inlet is connectable to a water hose. The pump may in this embodiment act to increase the pressure of the incoming water if said pressure of the incoming water is insufficient for the operation of the toy water gun.
-20In an embodiment water can be discharged from the toy water gun while said toy water gun is detached from the filling station. Thus, after water has been provided from the filling station to the expandable water reservoir, the toy water gun may be detached to allow a user to move around freely with said toy water gun, while said filling station remains at its operational location.-20In an embodiment water can be discharged from the toy water gun while said toy water gun is detached from the filling station. Thus, after water has been provided from the filling station to the expandable water reservoir, the toy water gun may be detached to allow a user to move around freely with said toy water gun, while said filling station remains at its operational location.
In an embodiment the electrical drive of the water pump of the filling station comprises a battery, preferably a rechargeable battery. The provision of the battery allows the filling station to be placed at any convenient operational location, without the need for a connection to the power mains.In an embodiment the electrical drive or the water pump or the filling station consists of a battery, preferably a rechargeable battery. The provision of the battery allows the filling station to be placed at any convenient operational location, without the need for a connection to the power mains.
In an embodiment the filling station further comprises a housing. The water reservoir and water pump of the filling station are provided substantially within said housing, wherein said water outlet of the filling station extends at least partially from said housing.In an embodiment the filling station further comprises a housing. The water reservoir and water pump of the filling station are provided substantially within said housing, said said water outlet or the filling station extends at least partially from said housing.
In an embodiment the water outlet of the filling station comprises a connector tube that extends from said housing. Said connector tube has a pump end in communication with said pump and a water gun end to which said toy water gun can be attached. The connector tube may be short, e.g. 10 to 30 cm, but may also be longer, e.g. one to two meters, so as to allow a user to discharge water from said toy water gun while it is attached to the filling station.In an embodiment the water outlet or the filling station comprises a connector tube that extends from said housing. Said connector tube has a pump end in communication with said pump and a water gun end to which said toy water gun can be attached. The connector tube may be short, e.g., 10 to 30 cm, but may also be longer, e.g., one to two meters, so as to allow a user to discharge water from said toy water gun while it is attached to the filling station.
In an embodiment the filling station further comprises an activator. When said toy water gun has been attached to said water outlet of the filling station, the water pump upon operation of the activator pressurizes water that has been provided to the filling station. The activator may e.g. be a push button that starts operation of the pump. The provision of the activator allows one to operate the pump only when needed.In an embodiment the filling station further comprises an activator. When said toy water gun has been attached to said water outlet of the filling station, the water pump upon operation of the activator pressurizes water that has been provided to the filling station. The activator may e.g. be a push button that starts operation of the pump. The provision of the activator allows one to operate the pump only when needed.
In an embodiment the filling station is portable, e.g. by means of one or more carrying grips provided to the filling station, e.g. to the housing thereof, and/or the station having wheels..In an embodiment the filling station, portable, e.g., means, or one or more carrying grips, is provided to the filling station, e.g., to the housing, and / or the station having wheels.
In an embodiment the tank of the filling station is portable. The tank is attachable to and detachable from other components of the filling station, e.g. a pump carrying base of the filling station. In this embodiment, only the tank of the filling station has to be transported, e.g. carried, to a filling location, e.g. a connection to the water mains, after which the tank can be brought to the location of the other components of the filling station and attached thereto in order to use said filling station.In an embodiment the tank or the filling station is portable. The tank is attachable to and detachable from other components of the filling station, e.g. a pump carrying base or the filling station. In this embodiment, only the tank of the filling station has been transported, eg carried, to a filling location, eg a connection to the water mains, after which the tank can be brought to the location of the other components of the filling station and attached thereto in order to use said filling station.
-21In an embodiment the volume of the water tank of the filling station is multiple times the volume of the expandable water reservoir, e.g. ten times the volume of the expandable water reservoir, e.g. five times the volume of the expandable water reservoir, e.g. three times the volume of the expandable water reservoir. Thus the provision of the filling station allows the water toy gun to be filled multiples times before the water tank is emptied, thereby allowing users to enjoy their play for a longer time, as no interruptions to fill said toy water gun at a remote filling location are needed. Instead, the toy water gun can be filled at the presumably nearby - filling station, which forms only a short interruption.-21In an embodiment the volume of the water tank or the filling station is multiple times the volume of the expandable water reservoir, eg at times the volume of the expandable water reservoir, eg five times the volume of the expandable water reservoir, eg three times the volume of the expandable water reservoir. Thus the provision of the filling station allows the water toy gun to be filled multiples times before the water tank is emptied, allowing allowing users to enjoy their play for a longer time, as no interruptions to fill said toy water gun at a remote filling location are needed. Instead, the toy water gun can be filled at the presumably nearby - filling station, which forms only a short interruption.
The tank of the filling station may have a volume between 1 and 25 L, e.g. 2 L, e.g. 5 L. Tanks having a volume larger than 10 L may be preferred in combination with multiple toy water guns. Such large tanks are envisioned to be filled at the operation location.The tank of the filling station may have a volume between 1 and 25 L, e.g. 2 L, e.g. 5 L. Tanks having a volume larger than 10 L may be preferred in combination with multiple toy water guns. Such large tanks are envisioned to be filled at the operation location.
In an embodiment the expandable water reservoir of the toy water gun is part of a water reservoir assembly according to the first aspect of the invention, which comprises a water reservoir, a pressurization device, and a connector structure. Thus, at least the first aspect of the invention can be included in the fourth aspect thereof.In an embodiment the expandable water reservoir or the toy water gun is a part of a water reservoir assembly according to the first aspect of the invention, which comprises a water reservoir, a pressurization device, and a connector structure. Thus, at least the first aspect of the invention can be included in the fourth aspect.
The fourth aspect of the invention also relates to a method to fill a toy water gun, wherein said method makes use of a toy water gun system according to the disclosure, wherein said method comprises the steps of filling the water reservoir of the filling station with water and attaching the toy water gun with the water inlet thereof to the water outlet of the filling station, and optionally operating said activator, so that water from the water reservoir of the filling station is pressurized by the pump and is subsequently provided via the water outlet of the filling station and the water inlet of the toy water gun to the expandable water reservoir of the toy water gun.The fourth aspect of the invention also relates to a method to fill a toy water gun, said said method makes use of a toy water gun system according to the disclosure, said said method comprises the steps of filling the water reservoir of the filling station with water and attaching the toy water gun with the water inlet after the water outlet of the filling station, and optionally operating said activator, so that water from the water reservoir or the filling station is pressurized by the pump and is provided via the water outlet of the filling station and the water inlet of the toy water gun to the expandable water reservoir or the toy water gun.
The expandable water reservoir according to the first aspect of the invention and/or the sound-producing designs according to the second aspect of the invention can be included in the toy water gun with pulsed-mode setting according to the third aspect of the invention and in the toy water gun system according to the fourth aspect of the invention. In addition, the toy water gun with pulsed-mode setting according to the third aspect of the invention can be included in the toy water gun system of the fourth aspect of the invention.The expandable water reservoir according to the first aspect of the invention and / or the sound-producing designs according to the second aspect of the invention can be included in the toy water gun with pulsed-mode setting according to the third aspect of the invention and in the toy water gun system according to the fourth aspect of the invention. In addition, the toy water gun with pulsed-mode setting according to the third aspect of the invention can be included in the toy water gun system or the fourth aspect of the invention.
A fifth aspect of the invention relates to a toy water gun system comprising:A fifth aspect of the invention relates to a toy water gun system including:
- a handheld toy water gun comprising:- a handheld toy water gun:
-22- a water circuit comprising:-22- a water circuit including:
- a water discharge outlet,- a water discharge outlet,
- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,
- a first connector having an inlet of said water circuit,- a first connector having an inlet or said water circuit,
- a cartridge having a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, e.g. a pre-pressurizable water reservoir adapted to store water therein under pressure, said cartridge further being provided with a second connector having a water port of said water reservoir, wherein said cartridge is releasably connectable to said toy water gun and said first and second connectors are connectable to one another so as to establish a connection between the water port of the water reservoir of the cartridge and the inlet of the water circuit of the handheld to water gun, wherein, optionally said first connector is provided with a first valve assembly, wherein said optional first valve assembly is adapted to close said inlet of said water circuit in case said cartridge is disconnected from the toy water gun, and to open said inlet of said water circuit in case said cartridge is connected to said toy water gun, and wherein said second connector is provided with a second valve assembly, wherein said first and second connectors are adapted to be connected to one another by advancing the cartridge along a connection axis relative to the toy water gun into an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis.- a cartridge having a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, eg a pre-pressurizable water reservoir adapted to store water therein under pressure, said cartridge further being provided with a second connector having a water port or said water reservoir, said said cartridge is releasably connectable to said toy water gun and said first and second connectors are connectable to one another so as to establish a connection between the water port of the water reservoir or the cartridge and the inlet of the water circuit of the handheld to water gun, optionally said first connector is provided with a first valve assembly, said said optional first valve assembly is adapted to close said inlet or said water circuit in case said cartridge is disconnected from the toy water gun, said to open inlet or said water circuit in said said cartridge is connected to said toy water gun, and said said second connector is provided with a second valve assembly, said first and second connectors are adapted to be connected to one another by advancing the cartridge along a connection axis relative to the toy water gun into an advanced position of the cartridge and to be disconnected from one another to retracting the cartridge along said connection axis.
Examples of a toy water gun systems with pre-pressurizable water reservoir cartridges are for example shown in US6345732.Examples of a toy water gun systems with pre-pressurizable water reservoir cartridges are shown for example in US6345732.
The fifth aspect of the invention aims to propose improved toy water gun systems provided with one or more exchangeable cartridges, e.g. in view of user comfort and/or user experience, etc.The fifth aspect of the invention aims to propose improved toy water gun systems provided with one or more exchangeable cartridges, e.g. in view of user comfort and / or user experience, etc.
The fifth aspect of the invention provides a toy water gun system according to claim 48, wherein the second connector comprises a base mounted to said housing,The fifth aspect of the invention provides a toy water gun system according to claim 48, the second connector comprises a base mounted to said housing,
-23and wherein the second valve assembly comprises a rotary valve member journaled to the base, wherein the rotary valve member, in a first angular position thereof about the connection axis relative to the base closes the water port of the cartridge, and in a second angular position thereof about the connection axis relative to the base opens the water port of the cartridge.-23and the second valve assembly comprises a rotary valve member journaled to the base, the rotary valve member, in a first angular position to the connection axis relative to the base closes the water port of the cartridge, and in a second angular position regarding the connection axis relative to the base opens the water port of the cartridge.
By provision of the rotary valve in the cartridge several advantages and/or user experiences can be achieved, e.g. compared to prior art designs wherein axially connecting the first and second connectors opens the cartridge valve. For example such prior art designs require basically that the user opens the valve against the pre-pressurized water in the reservoir if such reservoir is present and filled.Provision of the rotary valve in the cartridge several advantages and / or user experiences can be achieved, e.g. compared to prior art designs axially connecting the first and second connectors opens the cartridge valve. For example, such prior art designs basically require the user to open the valve against the pre-pressurized water in the reservoir if such reservoir is present and filled.
In the inventive design, the opening of the rotary valve requires some rotational motion, distinct from an axial advancing motion. This rotational motion is not impaired, in suitable designs, by an water pressure in the cartridge. Also, as will be explained here, the required additional rotational motion may allow for a bayonet connection that secures the cartridge to the toy water gun, so that the cartridge remains properly secured. Also, as will be explained here, the required additional rotational motion may allow for enhanced user experience, e.g. as in embodiments, the user may be forced to mimic the operation of the bolt handle of a gun, e.g. when connecting and disconnecting the cartridge from the toy water gun.In the inventive design, the opening of the rotary valve requires some rotational motion, distinct from an axial advancing motion. This rotational motion is not impaired, in suitable designs, by water pressure in the cartridge. Also, as will be explained here, the required additional rotational motion may allow for a bayonet connection that secures the cartridge to the toy water gun, so that the cartridge remains properly secured. Also, as will be explained here, the required additional rotational motion may allow for enhanced user experience, eg as in expired, the user may be forced to mimic the operation of the bolt handle of a gun, eg when connecting and disconnecting the cartridge from the toy water gun.
In an embodiment the toy water gun, e.g. the first connector, comprises a first coupling portion, wherein the rotary valve member comprises a second coupling portion which, when the rotary valve member is in said first angular position, is adapted to couple to said first coupling portion upon said axial advancing of the cartridge along a connection axis relative to the toy water gun into said advanced position, and wherein the toy water gun system is embodied to allow a user to manually cause said rotation of the rotary valve member from said first angular position into said second angular position only while said first and second coupling portions are coupled in said advanced position of the cartridge.In an embodiment of the toy water gun, eg the first connector, comprises a first coupling portion, in which the rotary valve member comprises a second coupling portion which, when the rotary valve member is in said first angular position, is adapted to couple to said first coupling portion upon said axial advancing of the cartridge along a connection axis relative to the toy water gun into said advanced position, and the toy water gun system is embodied to allow a user to manually cause said rotation of the rotary valve member from said first angular position into said second angular position only while said first and second coupling portions are coupled in said advanced position of the cartridge.
For example the first connector is stationary arranged on the toy water gun, with the first coupling equally stationary, e.g. at a front end of a male first connector. Herein, in an embodiment, the entire cartridge may be rotational relative to the water gun about the connection axis in order to open the rotary valve. For example the second connector is a female connector having a portion with a bore into which the male connector of the water gun is to be introduced.For example, the first connector is stationary arranged on the toy water gun, with the first coupling equally stationary, e.g., at a front end or a male first connector. Herein, in an embodiment, the entire cartridge may be rotational relative to the water gun about the connection axis in order to open the rotary valve. For example the second connector is a female connector having a portion with a bore into which the male connector or the water gun has been introduced.
-24In an embodiment the toy water gun comprises a bayonet structure with an L-shaped bayonet groove and a mating bayonet boss, wherein said groove has a longitudinal portion parallel to said connection axis and a locking portion at an end of said longitudinal portion and transverse to said longitudinal portion, wherein said bayonet structure is arranged such that, upon advancing said cartridge to said advanced position thereof, said boss slides through said longitudinal portion thereby preventing said manually caused rotation of the rotary valve member from said first angular position into said second angular position, and such that, upon having reached said advanced position of the cartridge and said user manually causing said rotation of the rotary valve member from said first angular position into said second angular position, the boss slides through the locking portion of the bayonet groove thereby opening the water port and preventing a retraction of the cartridge along said connection axis.-24In an embodiment of the toy water gun comprises a bayonet structure with an L-shaped bayonet groove and a mating bayonet boss, said said groove has a longitudinal portion parallel to said connection axis and a locking portion at an end of said longitudinal portion and transverse said longitudinal portion, said bayonet structure is arranged such that, upon advancing said cartridge to said advanced position, said boss slides through said longitudinal portion avoided said manually caused rotation of the rotary valve member from said first angular position into said second angular position, and such that, upon having reached said advanced position of the cartridge and said user manually causing said rotation of the rotary valve member from said first angular position into said second angular position, the boss slides through the locking portion of the bayonet groove prevent opening the water port and preventing a retraction of the cartridge along said conne ction axis.
It will be appreciated that an axial locking of the cartridge relative to the water gun in its advance position may also be achieved through differently designed cooperating axial locking members. For example the water gun is provided with one or more spring detents engaging in a circular groove or groove sections on the cartridge when the cartridge is moved into its advanced position.It will be appreciated that an axial locking of the cartridge relative to the water gun in its advance position may also be achieved through differently designed cooperating axial locking members. For example the water gun is provided with one or more spring detents engaging in a circular groove or groove sections on the cartridge when the cartridge is moved into its advanced position.
In embodiments the toy water gun comprises a cartridge carrier that is manually translatable along said connection axis and is adapted to receive said cartridge therein in a retracted position of said carrier and adapted to be translated together with the cartridge to said advanced position of the cartridge, preferably wherein the carrier comprises a receiving cradle onto which a portion of the cartridge is laterally insertable, perpendicular to said connection axis, said cradle retaining said portion in direction of said connection axis, preferably wherein the cartridge carrier is provided with a bolt handle for manual engagement by a user.Into the toy water gun comprises a cartridge carrier that is manually translated along said connection axis and is adapted to receive said cartridge therein in a retracted position or said carrier and adapted to be discussed together with the cartridge to said advanced position of the cartridge, preferably, the carrier comprises a receiving cradle which is a laterally insertable, perpendicular to said connection axis, said cradle retaining said portion in direction or said connection axis, preferably a cartridge carrier is provided with a bolt handle for manual engagement by a user.
The provision of a cartridge carrier enhances the user experience when playing with the toy water gun. Also its provision may be beneficial in view of properly connecting and disconnecting the first and second connectors, e.g. avoiding undue loads being placed on the connectors by the user during these phases.The provision of a cartridge carrier enhances the user experience when playing with the toy water gun. Also its provision may be beneficial in view or properly connecting and disconnecting the first and second connectors, e.g. avoiding undue loads being placed on the connectors by the user during these phases.
In preferred embodiments the cartridge carrier is manually rotatable about the connection axis when said cartridge is in said advanced position thereof. This design is advantageous in embodiments wherein said rotation of the carrier effects the opening, and in reverse direction the closing, of the rotary valve of the cartridge. The design is also advantageous in view ofPreferred expander the cartridge carrier is manually rotatable about the connection axis when said cartridge is in said advanced position. This design is advantageous in accordance with said rotation of the carrier effects of the opening, and in reverse direction of the closing, or the rotary valve of the cartridge. The design is also advantageous in view of
-25user experience, e.g. as a bolt handle present on the carrier now has to be moved similar to the bolt handle motion in an actual gun.-25user experience, e.g. as a bolt handle present on the carrier now has been moved similar to the bolt handle motion in an actual gun.
In embodiments an L-shaped bayonet groove is provided on the toy water gun, wherein a bayonet boss is provided on a cartridge carrier, wherein the cartridge is received in the carrier so as to be rotated along with the carrier.In an L-shaped bayonet groove is provided on the toy water gun, while a bayonet boss is provided on a cartridge carrier, the cartridge is received in the carrier so as to be rotated along with the carrier.
In embodiments the toy water gun comprises a core member aligned with the connector axis and provided at one end thereof with said first connector, a water duct extending through said core member, wherein the toy water gun comprises a cartridge carrier which comprises an annular portion mounted over said core member and translatable along said core member.Into the toy water gun comprises a core member aligned with the connector axis and provided at one end and with said first connector, a water duct extending through said core member, the toy water gun comprises a cartridge carrier which comprises an annular portion mounted about said core member and translatable along said core member.
In embodiments said core member is stationary mounted in the toy water gun and is provided with said L-shaped bayonet groove, and wherein said carrier is provided with said bayonet boss.In said said core member, stationary mounted in the toy water gun and is provided with said L-shaped bayonet groove, and said said carrier is provided with said bayonet boss.
In embodiments said toy water gun has an external housing provided with an L-shaped bolt handle groove, with a longitudinal portion through which said bolt handle is slided by the user for advancing and retracting the carrier along said connection axis, and a transverse portion at an advanced position end of said longitudinal portion through which said bolt handle is slided by a user for rotating the carrier about said connection axis.In said toy water gun has an external housing provided with an L-shaped bolt handle groove, with a longitudinal portion through which said bolt handle is slided by the user for advancing and retracting the carrier along said connection axis, and a transverse portion at an advanced position end of said longitudinal portion through which said bolt handle is slided by a user for rotating the carrier about said connection axis.
In embodiments said cartridge is provided with a pre-pressurizable water reservoir, e.g. with an expandable body, e.g. a body of resilient material, e.g. silicone rubber, that is expanded upon feeding pressurized water into said expandable body and that is self-compressing and/or the cartridge being provided with compression means associated with the water reservoir. For example the compression means may comprise one or more springs externally acting on the water reservoir, e.g. a spring acting on a piston of the water reservoir, e.g. external above atmospheric air pressure acting on a flexible water reservoir, etc.In said cartridge is provided with a pre-pressurizable water reservoir, eg with an expandable body, eg a body of resilient material, eg silicone rubber, that is expanded upon feeding pressurized water into said expandable body and that is self-compressing and / or the cartridge being provided with compression means associated with the water reservoir. For example the compression means may include one or more springs externally acting on the water reservoir, e.g. a spring acting on a piston of the water reservoir, e.g. external above atmospheric air pressure acting on a flexible water reservoir, etc.
In embodiments the first connector comprises a male connector and the second connector comprises a female connector having a bore wherein the male connector is insertable. This design allows for robustness of the cartridge in combination with relatively small dimensions, e.g. length, e.g. in an embodiment wherein the female connector at least in part extends into the water reservoir.In embodiment the first connector comprises a male connector and the second connector comprises a female connector having a bore in the male connector is insertable. This design allows for robustness of the cartridge in combination with relatively small dimensions, e.g., length, e.g., in an embodiment of the female connector at least in part extends into the water reservoir.
-26In embodiments the bore of the female connector is formed is delimited by a tubular portion that stationary secured to the housing of the cartridge, wherein the rotary valve member is journalled externally about said tubular portion, wherein the tubular portion and said rotary valve are provided with radial ports that in said first angular position are out of alignment such that said rotary valve is closed and in said second angular position are aligned so that said rotary valve is open. Other designs of rotary valves are also possible, e.g. with a rotary valve member being arranged internally of a stationary part of the housing, e.g. with the rotary valve member forming the bore into which the male connector is to be inserted.-26In the bore of the female connector formed is delimited by a tubular portion that is secured to the housing of the cartridge, the rotary valve member is journalled externally about said tubular portion, said tubular portion and said rotary valve are provided with radial ports that in said first angular position are out of alignment such that said rotary valve is closed and in said second angular position are aligned so that said rotary valve is open. Other designs of rotary valves are also possible, e.g. with a rotary valve member being arranged internally or with a stationary part of the housing, e.g. with the rotary valve member forming the bore into which the male connector is inserted.
In embodiments the first valve assembly comprises an axially movable valve member that is urged, e.g. by a spring, into a closed position thereof, and that is pushed from said closed position as the cartridge is advanced into is advanced position. For example the axially movable valve member is a tubular member that is arranged around a male first connector of the toy water gun, said valve member closing on or more inlets in said male connector in its closed position.In exponentially the first valve assembly comprises an axially movable valve member that is urged, e.g. by a spring, into a closed position, and that is pushed from said closed position as the cartridge is advanced into is advanced position. For example the axially movable valve member is a tubular member that is arranged around a male first connector or the toy water gun, said valve member closing on or more inlets in said male connector in its closed position.
In embodiments the first valve assembly comprises a rotary first valve member that is rotatable about the connection axis between associated first and second angular positions to close and open an inlet of the first connector. For example the rotary first valve member is a tubular member arranged around a male first connector of the toy water gun. For example, upon advancing said cartridge into said advanced position thereof, the rotary valve member couples to the cartridge so as to rotated along with rotation of the advanced cartridge, e.g. thereby effecting simultaneous opening of the first and second valve assemblies as well as, when rotating in reverse direction, the closing thereof.In vary the first valve assembly comprises a rotary first valve member that is rotatable about the connection axis between associated first and second angular positions to close and open an inlet or the first connector. For example, the rotary first valve member is a tubular member arranged around a male first connector or the toy water gun. For example, upon advancing said cartridge into said advanced position, the rotary valve member couples to the cartridge so as to rotated along with rotation of the advanced cartridge, eg effect effecting simultaneous opening of the first and second valve assemblies as well as, when rotating in reverse direction, the closing thereof.
In general the provision of a first valve assembly allows to keep the toy water gun filled with water, even under pressure if no further water is discharged, e.g. during the disconnection of an empty cartridge and the placing of a full, preferably pressurized, cartridge.In general the provision of a first valve assembly allows to keep the toy water filled with water, even under pressure if no further water is discharged, e.g. during the disconnection of an empty cartridge and the placing of a full, preferably pressurized, cartridge.
In embodiments the toy water gun is provided with a water feed connector, e.g. a hose coupler, e.g. for a garden hose, connected to said water circuit, e.g. via a check valve, e.g. said water feed connector allowing to fill said cartridge when connected to the toy water gun. One may also include in the system a filling station provided with a first connector, possibly with associated first valve assembly, that mates with the second connector of the cartridge. For example the filling station being a unit connectable to a water mains, e.g. to be connected to a water mains tap, e.g. via a garden hose. The filling station may also be embodied as described herein with reference to the fourth aspect of the invention.Into the toy water gun is provided with a water feed connector, eg a hose coupler, eg for a garden hose, connected to said water circuit, eg via a check valve, eg said water feed connector allowing to fill said cartridge when connected to the toy water gun. One may also include in the system a filling station provided with a first connector, possibly with associated first valve assembly, that mates with the second connector or the cartridge. For example the filling station being a unit connectable to a water mains, e.g. to be connected to a water mains tap, e.g. via a garden hose. The filling station may also be embodied as described with reference to the fourth aspect of the invention.
-27In general the toy water gun may comprises one or more features as described herein with reference to one or more of the other aspects of the invention.-27In general the toy water gun may include one or more features as described read with reference to one or more of the other aspects of the invention.
A sixth aspect of the invention relates to a toy water gun system comprising:A sixth aspect of the invention relates to a toy water gun system including:
- a handheld toy water gun comprising:- a handheld toy water gun:
- a water circuit comprising:- a water circuit including:
- a water discharge outlet,- a water discharge outlet,
- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,
- a first connector having an inlet of said water circuit,- a first connector having an inlet or said water circuit,
- a cartridge having a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port of said water reservoir, wherein said cartridge is releasably connectable to said toy water gun and said first and second connectors are connectable to one another so as to establish a connection between the water port of the water reservoir of the cartridge and the inlet of the water circuit of the toy water gun, wherein, optionally said first connector is provided with a first valve assembly, wherein said optional first valve assembly is adapted to close said inlet of said water circuit in case said cartridge is disconnected from the toy water gun, and to open said inlet of said water circuit in case said cartridge is connected to said toy water gun, and wherein said second connector is provided with a second valve assembly, wherein said first and second connectors are adapted to be connected to one another by advancing the cartridge along a connection axis relative to the toy water gun into an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis, wherein said first and second connectors are adapted to be connected to one another by advancing the cartridge along a connection axis relative to the toy water gun into an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis,- a cartridge having a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port or said water reservoir, said said cartridge is releasably connectable to said toy water gun and said first and second connectors are connectable to one another so as to establish a connection between the water port of the water reservoir or the cartridge and the inlet of the water circuit of the toy water gun, where, optionally said first connector is provided with a first valve assembly, said said optional first valve assembly is adapted to close said inlet or said water circuit in case said cartridge is disconnected from the toy water gun, and to open said inlet or said water circuit in case said cartridge is connected to said toy water gun, and said said second connector is provided with a second valve assembly, said said first and second connectors are adapted to b e connected to one another by advancing the cartridge along a connection axis relative to the toy water gun into an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis, said said first and second connectors are adapted to be connected to one another by advancing the cartridge along a connection axis relative to the toy water gun into an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis,
-28wherein the toy water gun comprises a cartridge carrier that is manually translatable along said connection axis and is adapted to receive said cartridge therein in a retracted position of said carrier and adapted to be translated together with the cartridge to said advanced position of the cartridge.-28wherein the toy water gun comprises a cartridge carrier that is manually translatable along said connection axis and is adapted to receive said cartridge therein in a retracted position or said carrier and adapted to be discussed together with the cartridge to said advanced position of the cartridge.
As explained herein above the provision of a cartridge carrier offers opportunities for advantages, such as avoiding undue mechanical forces (e.g. bending loads) on the connectors during connecting and disconnecting. It also allows to offer enhanced user experience, e.g. when providing a bolt handle to the carrier, e.g. allowing to mimic the bolt of an actual gun.As explained above the provision of a cartridge carrier offers opportunities for advantages, such as avoiding undue mechanical forces (e.g. bending loads) on the connectors during connecting and disconnecting. It also allows to offer enhanced user experience, e.g., when providing a bolt handle to the carrier, e.g., allowing to mimic the bolt or an actual gun.
A seventh aspect of the invention relates to a toy water gun system comprising:A seventh aspect of the invention relates to a toy water gun system including:
- a toy water gun comprising:- a toy water gun including:
- a water circuit comprising:- a water circuit including:
- a water discharge outlet,- a water discharge outlet,
- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,
- a first connector having an inlet of said water circuit,- a first connector having an inlet or said water circuit,
- a cartridge having a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port of said water reservoir, wherein said cartridge is releasably connectable to said toy water gun and said first and second connector are connectable to one another so as to establish a connection between the water port of the water reservoir of the cartridge and the inlet of the water circuit of the toy water gun, wherein, optionally said first connector is provided with a first valve assembly, wherein said optional first valve assembly is adapted to close said inlet of said water circuit in case said cartridge is disconnected from the toy water gun, and to open said inlet of said water circuit in case said cartridge is connected to said toy water gun, and wherein said second connector is provided with a second valve assembly, wherein said first and second connectors are adapted to be connected to one another by advancing the cartridge along a connection axis relative to the toy water gun into an- a cartridge having a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port or said water reservoir, said said cartridge is releasably connectable to said toy water gun and said first and second connector are connectable to one another so as to establish a connection between the water port of the water reservoir or the cartridge and the inlet of the water circuit of the toy water gun, where, optionally said first connector is provided with a first valve assembly, said said optional first valve assembly is adapted to close said inlet or said water circuit in case said cartridge is disconnected from the toy water gun, and to open said inlet or said water circuit in case said cartridge is connected to said toy water gun, and said said second connector is provided with a second valve assembly, said said first and second connectors are adapted to be connected to one another by advancing the cartridge along a connection axis relative to the toy water gun into an
-29advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis, wherein the second connector comprises a base mounted to said housing, and wherein the second valve assembly comprises a rotary valve member journaled to the base, wherein the rotary valve member, in a first angular position thereof about the connection axis relative to the base closes the water port of the cartridge, and in a second angular position thereof about the connection axis relative to the base opens the water port of the cartridge.-29advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis, in which the second connector comprises a base mounted to said housing, and in which the second valve assembly comprises a rotary valve member journaled to the base , the rotary valve member, in a first angular position regarding the connection axis relative to the base closes the water port of the cartridge, and in a second angular position regarding the connection axis relative to the base opens the water port of the cartridge.
wherein the toy water gun, e.g. the first connector, comprises a first coupling portion, and wherein the rotary valve member comprises a second coupling portion which, when the rotary valve member is in said first angular position, is adapted to couple to said first coupling portion upon said axial advancing of the cartridge along a connection axis relative to the toy water gun into said advanced position, wherein the toy water gun, e.g. the first connector, is provided with an L-shaped bayonet groove, and wherein the cartridge is provided with a mating bayonet boss, wherein said groove has a longitudinal portion parallel to said connection axis and a locking portion at an end of said longitudinal portion and transverse to said longitudinal portion, wherein said bayonet structure is arranged such that, upon advancing said cartridge to said advanced position thereof, said boss slides through said longitudinal portion thereby preventing manual rotation of the cartridge and thus said manually caused rotation of the rotary valve member from said first angular position into said second angular position, and such that, upon having reached said advanced position of the cartridge and said user manually rotating the cartridge and thus causing said rotation of the rotary valve member from said first angular position into said second angular position, the boss slides through the locking portion of the bayonet groove thereby opening the water port and preventing a retraction of the cartridge along said connection axis.where the toy water gun, eg the first connector, comprises a first coupling portion, and the rotary valve member comprises a second coupling portion which, when the rotary valve member is in said first angular position, is adapted to couple to said first coupling portion upon said axial advancing of the cartridge along a connection axis relative to the toy water gun into said advanced position, being the toy water gun, eg the first connector, is provided with an L-shaped bayonet groove, and being the cartridge is provided with a mating bayonet boss, said groove has a longitudinal portion parallel to said connection axis and a locking portion at an end of said longitudinal portion and transverse to said longitudinal portion, said bayonet structure is arranged such that, upon advancing said cartridge to said advanced position, said boss slides through said longitudinal portion preventing manual rotation of the cartridge and thus said manu ally caused rotation of the rotary valve member from said first angular position into said second angular position, and such that, upon having reached said advanced position of the cartridge and said user manually rotating the cartridge and thus causing said rotation of the rotary valve member from said first angular position into said second angular position, the boss slides through the locking portion of the bayonet groove opening the water port and preventing a retraction of the cartridge along said connection axis.
An eight aspect of the invention relates to a toy water gun system comprising:An eight aspect of the invention relates to a toy water gun system including:
- a toy water gun comprising:- a toy water gun including:
- a water circuit comprising:- a water circuit including:
- a water discharge outlet,- a water discharge outlet,
-30- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,-30- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,
- multiple first connectors, each having an inlet of said water circuit,- multiple first connectors, each having an inlet or said water circuit,
- multiple cartridges, each having a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port of said water reservoir, wherein said cartridge is releasably connectable to said toy water gun and said first and second connectors are connectable to one another so as to establish a connection between the water port of the water reservoir of the cartridge and the inlet of the water circuit of the toy water gun, wherein each first connector is provided with a first valve assembly, wherein said first valve assembly is adapted to close said inlet of said water circuit in case said cartridge is disconnected from the toy water gun, and to open said inlet of said water circuit in case said cartridge is connected to said toy water gun, and wherein each second connector is provided with a second valve assembly, wherein said first and second connectors are adapted to be connected to one another by advancing the cartridge along a connection axis relative to the toy water gun into an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis.- multiple cartridges, each having a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port or said water reservoir, said said cartridge is releasably connectable to said toy water gun and said first and second connectors are connectable to one another so as to establish a connection between the water port of the water reservoir or the cartridge and the inlet of the water circuit of the toy water gun, each first connector is provided with a first valve assembly, said said first valve assembly is adapted to close said inlet or said water circuit in case said cartridge is disconnected from the toy water gun, and to open said inlet or said water circuit in case said cartridge is connected to said toy water gun, and each second connector is provided with a second valve assembly, said first and second connectors are adapted to be conne cted to one another by advancing the cartridge along a connection axis relative to the toy water gun into an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis.
In this aspect of the invention it is envisaged that one toy water gun may be loaded with multiple cartridges, that are separately connectable and disconnectable from their first connector of the water gun whilst the one or more other cartridges remaining operational.In this aspect of the invention it is envisaged that one toy water gun may be loaded with multiple cartridges, that are separately connectable and disconnectable from their first connector of the water gun while the one or more other cartridges remain operational.
In embodiments each cartridge is axially locked relative to the toy water gun in the advanced position thereof, whilst rotational motion is possible so that the user, by rotation a selected cartridge, opens the rotary valve thereof and thus actively connects the water reservoir thereof to the water circuit. This will allow a user to choose which and/or how many, cartridges are actively connected to the water circuit. An empty cartridge can be shut whilst remaining in locked advanced position.In each of the cartridges is axially locked relative to the toy water gun in the advanced position, while rotational motion is possible so that the user, by rotation of a selected cartridge, opens the rotary valve and thus actively connects the water reservoir to the water circuit. This will allow a user to choose which and / or how many, cartridges are actively connected to the water circuit. An empty cartridge can be closed while remaining in locked advanced position.
A ninth aspect of the invention relates to a cartridge for use with a toy water gun having a water circuit comprising:A ninth aspect of the invention relates to a cartridge for use with a toy water gun having a water circuit including:
- a water discharge outlet,- a water discharge outlet,
-31- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,-31- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,
- a first connector having an inlet of said water circuit, wherein said cartridge has a cartridge housing and being provided with a water reservoir 5 adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port of said water reservoir, wherein said cartridge is releasably connectable to said toy water gun and said first and second connectors are connectable to one another so as to establish a connection between the water port of the water reservoir of the cartridge and the inlet of the water circuit of the toy water gun, wherein said first and second connectors are adapted to be connected to one another by advancing the cartridge along a connection axis relative to the toy water gun into an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis, wherein the second connector comprises a base mounted to said housing, and wherein the second valve assembly comprises a rotary valve member journaled to the base, wherein the rotary valve member, in a first angular position thereof about the connection axis relative to the base closes the water port of the cartridge, and in a second angular position thereof about the connection axis relative to the base opens the water port of the cartridge.- a first connector having an inlet or said water circuit, said cartridge has a cartridge housing and being provided with a water reservoir 5 adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port of said water reservoir, said cartridge is releasably connectable to said toy water gun and said first and second connectors are connectable to one another so as to establish a connection between the water port of the water reservoir or the cartridge and the inlet of the water circuit or the toy water gun, said first and second connectors are adapted to be connected to one another by advancing the cartridge along a connection axis relative to the toy water gun to an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis, in which the second connector comprises a base mounted in said housing, and in which the second valve asse mbly comprises a rotary valve member journaled to the base, in the rotary valve member, in a first angular position regarding the connection axis relative to the base closes in the water port of the cartridge, and in a second angular position regarding the connection axis relative to the base opens the water port or the cartridge.
An tenth aspect of the invention relates to a cartridge for use with a toy water gun having a water circuit comprising:An tenth aspect of the invention relates to a cartridge for use with a toy water gun having a water circuit including:
- a water discharge outlet,- a water discharge outlet,
- a discharge control operable by a user allowing water to be controllably discharged 25 from said water reservoir via said water discharge outlet,- a discharge control operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,
- a first connector having an inlet of said water circuit, wherein said cartridge has a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port of said water reservoir,- a first connector having an inlet or said water circuit, said said cartridge has a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port of said water reservoir,
-32wherein said cartridge is provided with a pre-pressurizable water reservoir arranged within said housing, e.g. with an expandable body, e.g. a body of resilient material, e.g. silicone rubber, that is expanded upon feeding pressurized water into said expandable body and that is self-compressing and/or the cartridge being provided with compression means associated with the water reservoir, wherein a variable volume air chamber is delimited between said housing and said expandable water reservoir, wherein said housing is provided with said passage and an airflow operated sound-producing device is adapted to provide a water discharge related sound as in response to the compression of the expandable water reservoir from an expanded state to a relaxed state an airflow occurs through the passage from the exterior into said variable volume air chamber.-32wherein said cartridge is provided with a pre-pressurizable water reservoir arranged within said housing, eg with an expandable body, eg a body of resilient material, eg silicone rubber, that is expanded upon feeding pressurized water into said expandable body and that is self -compressing and / or the cartridge being provided with compression means associated with the water reservoir, a variable volume air chamber is delimited between said housing and said expandable water reservoir, said said housing is provided with said passage and an airflow operated sound-producing device is adapted to provide a water discharge related sound as in response to the compression of the expandable water reservoir from an expanded state to a relaxed state an airflow occurs through the passage from the exterior into said variable volume air chamber.
It will be appreciated that this cartridge is comprised in the second aspect of the invention and may be provided with one or more features as discussed with reference to said aspect. For example the airflow-operated sound producing device may be removably mounted, e.g. for exchange by another such device that produces another sound, e.g. allowing team players to have the same sound, e.g. distinct from the sound of an opposing player or team of players.It will be appreciated that this cartridge is comprised in the second aspect of the invention and may be provided with one or more features as discussed with reference to said aspect. For example the airflow-operated sound producing device may be removably mounted, e.g., exchange by another such device that produces another sound, e.g., allowing team players to have the same sound, e.g., distinct from the sound of an opposing player or team of players.
An eleventh aspect of the invention relates to a toy water gun water reservoir assembly, comprising:An eleventh aspect of the invention relates to a toy water gun water reservoir assembly, including:
a variable volume water chamber having an inlet and an outlet for water, optionally a combined inlet and outlet for water, e.g. said combined inlet and outlet being provided with a self-closing valve, e.g. a slit valve, a reciprocable water piston member bounding said variable volume water chamber, said water piston member being reciprocable between an emptied position where the water chamber is empty and a filled position wherein the water chamber is filled with water, a variable volume vacuum chamber, a vacuum chamber piston member bounding said variable volume vacuum chamber, wherein said water piston member and said vacuum chamber member are mechanically connected and form a piston assembly, a user operable locking device adapted to lock and unlock said piston assembly, at least in the filled position of the water piston member,a variable volume water chamber having an inlet and outlet for water, optionally a combined inlet and outlet for water, eg said combined inlet and outlet being provided with a self-closing valve, eg a slit valve, a reciprocable water piston member bounding said variable volume water chamber, said water piston member being reciprocable between an emptied position where the water chamber is empty and a filled position the water chamber is filled with water, a variable volume vacuum chamber, a vacuum chamber piston member bounding said variable volume vacuum said water piston member and said vacuum chamber member are mechanically connected and form a piston assembly, a user operable locking device adapted to lock and unlock said piston assembly, at least in the filled position of the water piston member,
-33so that, in use, filling water into the variable water chamber causes said piston assembly to move with said water piston thereof into the filled position, in which process a vacuum or deeper vacuum is caused in the vacuum chamber, wherein the user operable locking device allows to lock said piston assembly as said water piston in said filled position, e.g. automatically causing said locking when in said filled position, and wherein said user operable locking device is unlockable by the user so that the vacuum acting on the vacuum chamber piston member causes the water in the water chamber to be pressurized in order of expulsion thereof from the water reservoir assembly.-33so that, in use, filling water into the variable water chamber causes said piston assembly to move with said water piston into the filled position, in which process a vacuum or deeper vacuum is caused in the vacuum chamber, in which the user operable locking device allows to lock said piston assembly as said water piston in said filled position, eg automatically causing said locking when in said filled position, and said user operable locking device is unlockable by the user so that the vacuum acting on the vacuum chamber piston member causes the water in the water chamber to be pressurized in order or expulsion from the water reservoir assembly.
In this aspect of the invention vacuum is used a power source to pressurize the water for its expulsion. The locking device allows the water to be non-pressurized, or hardly pressurized, as long as the locking device actually holds the piston assembly. As soon as the user unlocks the device, the vacuum force is transmitted via the piston assembly and causes the water to become truly pressurized. This allows for example for a design of a releasable toy water gun cartridge that has a very simple valve to keep the water in the filled cartridge, whilst the power to pressure the water being readily available within the vacuum chamber.In this aspect of the invention vacuum is used a power source to pressurize the water for its expulsion. The locking device allows the water to be non-pressurized, or hardly pressurized, as long as the locking device actually holds the piston assembly. As soon as the user unlocks the device, the vacuum force is transmitted through the piston assembly and causes the water to become truly pressurized. This allows for example for a design of a releasable toy water gun cartridge that has a very simple valve to keep the water in the filled cartridge, while the power to pressure the water being readily available within the vacuum chamber.
For example a simple slit valve will suffice to keep the water in the reservoir assembly.For example a simple slit valve will suffice to keep the water in the reservoir assembly.
The toy water gun water reservoir assembly can be by itself used as a toy water gun, e.g. the outlet of the water reservoir forming the discharge nozzle thereof.The toy water gun water reservoir assembly can be used by itself as a toy water gun, e.g., the outlet of the water reservoir forming the discharge nozzle.
In other embodiments the toy water gun water reservoir assembly is embodied as a cartridge that is provided with a coupler for releasable coupling to a toy water gun, e.g. a single toy water gun having multiple couplers to allow simultaneous connection of multiple of such vacuum powered cartridges.In other expands the toy water gun water reservoir assembly is embodied as a cartridge that is provided with a coupler for releasable coupling to a toy water gun, eg a single toy water gun having multiple couplers to allow simultaneous connection of multiple or such vacuum powered cartridges .
In an embodiment the reservoir assembly comprises a main housing with a first cylinder part of a first inner diameter and having at one axial end a bottom, and with a second cylinder part that adjoins the other axial end of the first cylinder part and has a second inner diameter smaller than the first inner diameter. A piston assembly is provided with a water piston member that is reciprocable in the second cylinder and is provided with a vacuum chamber piston member cylinder that is reciprocable in the first cylinder. The connection between them is formed by a piston rod, as is preferred a hollow piston rod having an inner chamber that is in open connection with the first cylinder so as to enlarge the volume of the water chamber. The vacuum chamber is then formed around the piston rod in the first cylinder. A sealing gland may be provided where the piston rod extends into the second cylinder. The bottom of the first cylinder may have one or more openings, so as to expose one side of the vacuum piston member to ambient pressure.In an embodiment the reservoir assembly comprises a main housing with a first cylinder part or a first inner diameter and having a second axial end a bottom, and with a second cylinder part that adjoins the other axial end of the first cylinder part and has a second inner diameter narrower than the first inner diameter. A piston assembly is provided with a water piston member that is reciprocable in the second cylinder and is provided with a vacuum chamber piston member cylinder that is reciprocable in the first cylinder. The connection between them is formed by a piston rod, as preferred is a hollow piston rod having an inner chamber that is in open connection with the first cylinder so as to enlarge the volume of the water chamber. The vacuum chamber is then formed around the piston rod in the first cylinder. A sealing gland may be provided where the piston rod extends into the second cylinder. The bottom of the first cylinder may have one or more opening, so as to expose one side of the vacuum piston member to ambient pressure.
-34The locking device may be arranged at or near the bottom of the first cylinder, e.g. so as to engage of the vacuum piston member.-34 The locking device may be arranged at or near the bottom of the first cylinder, e.g., so as to engage or the vacuum piston member.
For example the locking device comprises a spring loaded locking member that automatically locks the piston assembly when the reservoir is full. For example the locking device comprises a push button to operate the locking member, e.g. for unlocking against a spring force.For example the locking device comprises a spring loaded locking member that automatically locks the piston assembly when the reservoir is full. For example, the locking device comprises a push button to operate the locking member, e.g., for unlocking against a spring force.
The reservoir assembly can be permanently integrated in a toy water gun if desired, so without the option for releasing by the user. More preferred such user release is possible, e.g. for remote filling of the water reservoir assembly.The reservoir assembly can be permanently integrated into a toy water gun if desired, so without the option for releasing by the user. More preferred such user release is possible, e.g. for remote filling of the water reservoir assembly.
The reservoir assembly can be combined with a toy water gun into a system, e.g. with each having mating couplers, e.g. with a simple screw thread or bayonet connector between the toy water gun and the releasable reservoir assembly. One would be able to mechanically connect first, with the locking device still locked, and then later unlock the locking device to effectively cause pressurization of the water therein. If the toy water gun has a trigger a mechanism could be provided so as to connect the trigger to the locking device, so that operation of the trigger unlocks the locking device.The reservoir assembly can be combined with a toy water gun into a system, e.g. with each having mating couplers, e.g. with a simple screw thread or bayonet connector between the toy water gun and the releasable reservoir assembly. One would be able to connect mechanically first, with the locking device still locked, and then later unlock the locking device to effectively cause pressurization of the water therein. If the toy water gun has a trigger a mechanism could be provided so as to connect the trigger to the locking device, so that operation of the trigger unlocks the locking device.
One can also envisage a revolver type toy water gun with multiple of these water reservoirs on a revolving structure, and with a trigger that allows the user to unlock on locking device after the other as the one water reservoir assembly is moved out of the firing position and replaced by a full water reservoir assembly.One can also envisaged a revolver type toy water gun with multiple of these water reservoirs on a revolving structure, and with a trigger that allows the user to unlock on locking device after the other as the one water reservoir assembly is moved out of the firing position and replaced by a full water reservoir assembly.
It will be appreciated by the skilled person that a feature disclosed herein primarily with reference to one aspect of the invention may be combined with another aspect of the invention, unless functionally impossible.It will be appreciated by the skilled person that a feature disclosed primarily with reference to one aspect of the invention may be combined with another aspect of the invention, unless functionally impossible.
The present invention also relates to filling of a toy water gun reservoir as disclosed herein, playing with a toy water gun as disclosed herein, etc.The present invention also relates to filling of a toy water gun as disclosed, playing with a toy water gun as disclosed, etc.
The present invention also relates to components of a toy water gun and/or cartridge as disclosed herein.The present invention also relates to components of a toy water gun and / or cartridge as disclosed.
-35The invention and various aspects thereof will now be discussed with reference to the drawings. In the drawings:-35The invention and various aspects will now be discussed with reference to the drawings. In the drawings:
Figure 1 shows a schematic drawing of toy water gun according to the first aspect of the invention,Figure 1 shows a schematic drawing of a toy water gun according to the first aspect of the invention,
Figure 2 shows a cross-section of an embodiment of a toy water gun according to the first aspect of the invention and a sound-producing housing according to the second aspect of the invention,Figure 2 shows a cross-section or an embodiment of a toy water gun according to the first aspect of the invention and a sound-producing housing according to the second aspect of the invention,
Figure 3 shows a side view of a toy water gun according to the first aspect of the invention and a sound-producing housing according to the second aspect of the invention,Figure 3 shows a side view of a toy water gun according to the first aspect of the invention and a sound-producing housing according to the second aspect of the invention,
Figure 4 shows a schematic illustration of the second aspect of the invention,Figure 4 shows a schematic illustration of the second aspect of the invention,
Figure 5 shows a schematic drawing of a sound-producing system for a toy water gun comprising a detachable first sound source and an attachment portion according to the second aspect of the invention,Figure 5 shows a schematic drawing of a sound-producing system for a toy water gun including a detachable first sound source and an attachment portion according to the second aspect of the invention,
Figure 6 shows a schematic drawing of a second source to be used in a sound-producing system according to the second aspect of the invention,Figure 6 shows a schematic drawing of a second source to be used in a sound-producing system according to the second aspect of the invention,
Figure 7 shows a schematic drawing of a toy water gun having a pulsed-mode setting according to the third aspect of the invention,Figure 7 shows a schematic drawing of a toy water gun having a pulsed-mode setting according to the third aspect of the invention,
Figure 8 shows another schematic drawing of a toy water gun having a pulsed-mode setting according to third aspect of the invention,Figure 8 shows another schematic drawing of a toy water gun having a pulsed-mode setting according to the third aspect of the invention,
Figure 9 shows a cross-section of a filling station that is comprised in the toy water gun system according to the fourth aspect of the invention, andFigure 9 shows a cross-section of a filling station that is comprised in the toy water gun system according to the fourth aspect of the invention, and
Figure 10 shows a cross-section of another embodiment of a filling station that is comprised in the toy water gun system according to the fourth aspect of the invention.Figure 10 shows a cross-section or another embodiment of a filling station that is comprised in the toy water gun system according to the fourth aspect of the invention.
Figures 11 a-c illustrate from various angles the loading of a cartridge into the cartridge carrier of a toy water gun according to at least the fifth aspect of the invention,Figures 11 a-c illustrate from various angles the loading of a cartridge into the cartridge carrier of a toy water gun according to at least the fifth aspect of the invention,
Figures 12a-c illustrate the advancing of the cartridge carrier and the carrier in the toy water gun of figures 11a-c,Figures 12a-c illustrate the advancing of the cartridge carrier and the carrier in the toy water gun or figures 11a-c,
Figures 13a-c, 14a -c illustrate the rotation of the advanced cartridge carrier and carrier about the connection axis,Figures 13a-c, 14a -c illustrate the rotation of the advanced cartridge carrier and carrier about the connection axis,
Figures 15a-c illustrates the reverse rotation of the advanced cartridge carrier and carrier about the connection axis,Figures 15a-c illustrates the reverse rotation of the advanced cartridge carrier and carrier about the connection axis,
Figures 16a-c illustrate the retraction of the cartridge carrier and the carrier,Figures 16a-c illustrate the retraction of the cartridge carrier and the carrier,
Figures 17a-c illustrate the unloading of the cartridge from the carrier,Figures 17a-c illustrate the unloading of the cartridge from the carrier,
Figures 18a-d illustrate the core member, carrier in retracted position, and cartridge loaded in the carrier, in various views,Figures 18a-d illustrate the core member, carrier in retracted position, and cartridge loaded in the carrier, in various views,
Figures 19a-d illustrate the core member, carrier in advanced position, and cartridge loaded in the carrier, in various views,Figures 19a-d illustrate the core member, carrier in advanced position, and cartridge loaded in the carrier, in various views,
-36Figures 20a-d illustrate the core member, carrier in advanced and rotated to open and locked position, and cartridge loaded in the carrier, in various views,-36Figures 20a-d illustrate the core member, carrier in advanced and rotated to open and locked position, and cartridge loaded in the carrier, in various views,
Figure 21 shows the cartridge of figures 11-20 in filled condition with the rotary valve closed, Figure 22 shows the cartridge of figures 11 - 20 in empty condition with the rotary valve opened,Figure 21 shows the cartridge or figures 11-20 in filled condition with the rotary valve closed, Figure 22 shows the cartridge or figures 11-20 in empty condition with the rotary valve opened,
Figure 23 illustrates a toy water gun system according to the invention having multiple first connectors on the water gun,Figure 23 illustrates a toy water gun system according to the invention having multiple first connectors on the water gun,
Figures 24 -25 illustrate a toy water gun reservoir assembly according to the eleventh aspect of the invention.Figures 24 -25 illustrate a toy water gun reservoir assembly according to the eleventh aspect of the invention.
Figure 1 shows main components of a toy water gun with a water reservoir assembly 100. The water reservoir assembly 100 comprises a water reservoir 110, a pressurization device 120, and a connector element 130, here a rigid elongate element 130.Figure 1 shows main components of a toy water gun with a water reservoir assembly 100. The water reservoir assembly 100 comprises a water reservoir 110, a pressurization device 120, and a connector element 130, here a rigid elongate element 130.
In the water reservoir 110 a water storage volume 111 is enclosed by walls 112a,b. Here the wall 112a is a water cylinder and the other wall 112b is a water piston acting as movable wall 112b that allows to enlarge and reduce said water volume 111. This movable wall 112b is movable in response to a force exerted thereon by pressurized water provided in water volume 110.In the water reservoir 110 a water storage volume 111 is enclosed by walls 112a, b. Here the wall 112a is a water cylinder and the other wall 112b is a water piston acting as movable wall 112b that allows to enlarge and reduce said water volume 111. This movable wall 112b is movable in response to a force exerted thereon by pressurized water provided in water volume 110.
The pressurization device 120 has cylinder 120a and a reciprocable piston 121 that divides said cylinder into a first chamber 122 on one side of said piston 121 and a second chamber n 123 on the opposite side of said piston 121. The first chamber 122 is here embodied as a below atmospheric chamber or partial vacuum chamber, wherein some gas, e.g. air, is present at below atmospheric pressure at least in some operative positions of the piston 121. The second chamber 123 here is vented to ambient and thus filled with air at atmospheric pressure. The piston 121 is configured to prevent gas flow between said first chamber 122 and said second chamber 123 of the pressurization device. The piston 121 is movable in response to a difference in pressure between the first chamber 122 and the second chamber 123 of the pressurization device 120.The pressurization device 120 has cylinder 120a and a reciprocable piston 121 that divides said cylinder into a first chamber 122 on one side of said piston 121 and a second chamber n 123 on the opposite side of said piston 121. The first chamber 122 is here embodied as a below atmospheric chamber or partial vacuum chamber, with some gas, eg air, is present at below atmospheric pressure at least in some operative positions of the piston 121. The second chamber 123 here is vented to ambient and thus filled with air at atmospheric pressure. The piston 121 is configured to prevent gas flow between said first chamber 122 and said second chamber 123 or the pressurization device. The piston 121 is movable in response to a difference in pressure between the first chamber 122 and the second chamber 123 or the pressurization device 120.
A connector structure, preferably rigid, here a rigid elongate element 130, e.g. piston rod, connects the movable wall 112b of the water reservoir 110 to the piston 121 of the pressurization device 120 so that a change of the water volume 111 results in a change of the volume of the first chamber 122. When the discharge of water from the water reservoir 110 is prevented and pressurized water is being fed into the water reservoir 110, this pressurized water exerts a force on the water piston 112b of the water reservoir 110 so as toA connector structure, preferably rigid, here a rigid elongate element 130, eg piston rod, connects the movable wall 112b of the water reservoir 110 to the piston 121 or the pressurization device 120 so that a change of the water volume 111 results in a change of the volume of the first chamber 122. When the discharge of water from the water reservoir 110 is prevented and pressurized water is being fed into the water reservoir 110, this pressurized water exerts a force on the water piston 112b of the water reservoir 110 so as to
-37enlarge the water storage volume 111, which in turn enlarges the volume of the first chamber 122 of the pressurization device. Consequently the pressure in the first chamber 122 becomes lower than the pressure in the second chamber 123, or is further lowered, so that when discharge of water from the water reservoir 110 is subsequently enabled, this difference in gas pressures acting on the piston 121 between the first chamber 122 and second chamber 123 of the pressurization device 120 exerts a force on said piston 121 which is transmitted via structure 130 to the water piston 112b, thereby forcing water to be discharged from said water reservoir 110.-37enlarge the water storage volume 111, which in turn enlarges the volume of the first chamber 122 or the pressurization device. The pressure in the first chamber 122 becomes lower than the pressure in the second chamber 123, or is further lowered, so that when discharge of water from the water reservoir 110 is subsequently enabled, this difference in gas pressures acting on the piston 121 between the first chamber 122 and second chamber 123 of the pressurization device 120 exerts a force on said piston 121 which is transmitted via structure 130 to the water piston 112b, forcing water to be discharged from said water reservoir 110.
The discharge of water from the water reservoir is controlled by means of a valve 113, which is provided in communication with the water reservoir. This valve may e.g. be a self-closing valve, a throttle component, and/or a valve controlled by a user operated trigger.The discharge of water from the water reservoir is controlled by means of a valve 113, which is provided in communication with the water reservoir. This valve may e.g. be a self-closing valve, a throttle component, and / or a valve controlled by a user operated trigger.
The movable wall 112b of the water reservoir 110 may be provided with one or more seals 115, e.g. sealing rings, e.g. O-rings, at the interface between the movable wall 112b and other walls 112, e.g. fixed walls, of the water reservoir to ensure a good sealing at said interface.The movable wall 112b of the water reservoir 110 may be provided with one or more seals 115, eg sealing rings, eg O-rings, at the interface between the movable wall 112b and other walls 112, eg fixed walls, or the water reservoir to ensure a good sealing at said interface.
Likewise, the piston 121 of the pressurization chamber may be provided with one or more seals 124, e.g. sealing rings, e.g. O-rings, at the interface between the piston 121 and the walls of the pressurization device cylinder 120a.Likewise, the piston 121 or the pressurization chamber may be provided with one or more seals 124, e.g., sealing rings, e.g., O-rings, at the interface between the piston 121 and the walls of the pressurization device cylinder 120a.
The water reservoir cylinder 112a s preferably provided with an aperture 116 so that the piston 112a thereof is exposed at the opposite side to ambient pressure. For example this aperture 116 is provided in a portion of the reservoir opposite from the water inlet and water outlet of the water reservoir 110.The water reservoir cylinder 112a preferably provided with an aperture 116 so that the piston 112a is exposed on the opposite side to ambient pressure. For example, this aperture 116 is provided in a portion of the reservoir opposite from the water inlet and water outlet of the water reservoir 110.
In the present embodiment the water reservoir 110 and the pressurization device 120 are configured such that the cross-sectional area of the piston 121 is much larger than the crosssectional area of the movable wall 112b. In an embodiment, the area of the piston 121 may be about ten times larger than that of the movable wall 112b.In the present embodiment the water reservoir 110 and the pressurization device 120 are configured such that the cross-sectional area of the piston 121 is much larger than the cross-sectional area of the movable wall 112b. In an embodiment, the area of the piston 121 may be larger than that of the movable wall 112b.
In operation a partial vacuum may be provided in the first chamber 122 of the pressurization device120. The pressure in the first chamber 122 may thus be below atmospheric pressure.In operation a partial vacuum may be provided in the first chamber 122 or the pressurization device120. The pressure in the first chamber 122 may thus be below atmospheric pressure.
-38In the embodiment of Figures 2 and 3 the second chamber 123 of the pressurization device 120 is in communication with ambient air through the provision of a passage 124 extending through a wall of the cylinder 120a.-38In the embodiment of Figures 2 and 3 the second chamber 123 or the pressurization device 120 is in communication with ambient air through the provision of a passage 124 extending through a wall of the cylinder 120a.
Moreover, in the embodiment of Figures 2 and 3 when no water is provided to the water volume 111 of the water reservoir 110 the volume of said water volume 111 is substantially zero. Also, as preferred, in said condition the volume of the first chamber 122 of the pressurization device 120 is substantially zero.Moreover, in the embodiment of Figures 2 and 3 when no water is provided to the water volume 111 or the water reservoir 110 the volume or said water volume 111 is substantially zero. Also, as preferred, in said condition the volume of the first chamber 122 or the pressurization device 120 is substantially zero.
In an embodiment, e.g. of Figures 2 and 3, the partial vacuum in the first chamber 122 of the pressurization device 120 may be such that the pressure difference between the first 122 and second chambers 123 of the pressurization device 120 is substantially independent of the operative positions of the piston 121, so that the force provided by said pressure difference is independent of the actual position and the travel of the piston 121 in the pressurization cylinder 120a. For instance, the maximum pressure difference between the first chamber 122 and second chamber 123 of the pressurization chamber 120 may be less than 20% when comparing different positions of the piston 121, e.g. the most inner and most outer terminal positions of the stroke of the piston during operation of the toy water gun.In an embodiment, eg of Figures 2 and 3, the partial vacuum in the first chamber 122 or the pressurization device 120 may be such that the pressure difference between the first 122 and second chambers 123 or the pressurization device 120 is substantially independent of the operative positions of the piston 121, so that the force provided by said pressure difference is independent of the current position and the travel of the piston 121 in the pressurization cylinder 120a. For instance, the maximum pressure difference between the first chamber 122 and second chamber 123 of the pressurization chamber 120 may be less than 20% when comparing different positions of the piston 121, eg the most inner and most outer terminal positions of the stroke of the piston during operation of the toy water gun.
In the embodiment of Figures 2 and 3 the second chamber 123 is in communication with the ambient air by means of a passage 124 extending through a wall of device 120. Herein, as preferred, the passage is provided with, e.g. a section is embodied as, an airflow controlled sound-producing device 125 adapted to provide a sound having a first frequency spectrum that is at least partially audible with the human ear when. Here in response to the reduction of the volume of the first chamber 122 of the pressurization device 120 upon enabling the discharge of water from the water reservoir 110, an airflow occurs through the passage 124 from the ambient to the second chamber 123 which airflow causes the device 125 to produce an airflow induced sound, like a whistle of similar instrument.In the embodiment of Figures 2 and 3 the second chamber 123 is in communication with the ambient air by means of a passage 124 extending through a wall of device 120. Herein, as preferred, the passage is provided with, eg a section is embodied as , an airflow controlled sound-producing device 125 adapted to provide a sound having a first frequency spectrum that is at least partially audible with the human ear when. Here in response to the reduction of the volume of the first chamber 122 of the pressurization device 120 upon enabling the discharge of water from the water reservoir 110, an airflow occurs through the passage 124 from the ambient to the second chamber 123 which airflow causes the device 125 to produce an airflow induced sound, like a whistle or similar instrument.
Moreover, the pressurization device further comprises a protrusion 126, here at the exterior side of the wall of the cylinder through which the passage 124 extends. Said protrusion 126 here is provided around the passage 124, e.g. as an addition to a sound-producing device 125 or part thereof. The protrusion is shaped to further facilitate the creation, and/or spreading of the human ear audible sound. In the present embodiment, the creation, amplification and/or spreading of said sound is facilitated by the embodiment of the protrusion 126 as a horn-shaped protrusion.Moreover, the pressurization device further comprises a protrusion 126, here on the exterior side of the wall of the cylinder through which the passage 124 extends. Said protrusion 126 here is provided around the passage 124, e.g., as an addition to a sound-producing device 125 or part thereof. The protrusion is shaped to further facilitate the creation, and / or spreading of the human ear audible sound. In the present embodiment, the creation, amplification and / or spreading of said sound, it is facilitated by the embodiment of the protrusion 126 as a horn-shaped protrusion.
-39In an alternative embodiment, or complementary, a sound-producing device 125 is arranged in passage 116 communicating with the ambient air side of the water piston 112b.-39In an alternative embodiment, or complementary, a sound-producing device 125 is arranged in passage 116 communicating with the ambient air side of the water piston 112b.
In the embodiment of Figure 1, with the passage 124 absent, the pressure in the second chamber 123 may be above atmospheric pressure. It is envisioned that in such an embodiment the pressure in the first chamber 122 is at or below atmospheric pressure, so that the piston 121 is moved against a higher pressure upon enlargement of the water volume 111.In the embodiment of Figure 1, with the passage 124 absent, the pressure in the second chamber 123 may be above atmospheric pressure. It is envisioned that in such an embodiment the pressure in the first chamber 122 is at or below atmospheric pressure, so that the piston 121 is moved against a higher pressure upon enlargement of the water volume 111.
In the embodiment of Figures 2 and 3 it is seen that the expandable water reservoir is part of a toy water gun. The toy water gun further comprises a water storage container 140, here an unpressurized water container, and an inlet 141 in communication with said water container. The inlet 141 can be closed with a cap 142, e.g. for filling the container 140 from a tap or garden hose. One could also envisage a garden hose connector on the toy water gun for filling the storage contained40.In the embodiment of Figures 2 and 3 it is seen that the expandable water reservoir is part of a toy water gun. The toy water gun further comprises a water storage container 140, here an unpressurized water container, and an inlet 141 in communication with said water container. The inlet 141 can be closed with a cap 142, e.g., for filling the container 140 from a tap or garden hose. One could also envisage a garden hose connector on the toy water gun for filling the storage contained40.
The water container 140 is in communication with the water reservoir 110 of the water reservoir assembly 100 by means of a conduit 160. A pump 150 is provided in the conduit 160, with the pump inlet 151 in communication the water storage container 140 and the pump outlet 152 in communication with the water reservoir 110. In this way the pump, when in use, provides pressurized water to the water volume 111 of the water reservoir 100.The water container 140 is in communication with the water reservoir 110 or the water reservoir assembly 100 by means of a conduit 160. A pump 150 is provided in the conduit 160, with the pump inlet 151 in communication the water storage container 140 and the pump outlet 152 in communication with the water reservoir 110. In this way the pump, when in use, provides pressurized water to the water volume 111 of the water reservoir 100.
The toy water gun further comprises a trigger 161 that can be operated by a user to enable a discharge of water from the toy water gun. The trigger 161 controls the valve 113, here a ball valve, that in the open position thereof allows discharge of water and in the closed position thereof prevents discharge of water. In this embodiment the valve 113 directly precedes the outlet nozzle 162 of the toy water gun.The toy water gun further comprises a trigger 161 that can be operated by a user to enable a discharge of water from the toy water gun. The trigger 161 controls the valve 113, here a ball valve, that in the open position of allows discharge of water and in the closed position of allowing discharge of water. In this embodiment the valve 113 directly precedes the outlet nozzle 162 or the toy water gun.
The toy water gun further comprises a handle 164 by which the user can hold said toy water gun while pulling the trigger 161.The toy water gun further comprises a handle 164 by which the user can hold said toy water gun while pulling the trigger 161.
The toy water gun further comprises an electrical pump drive 152, e.g. including a battery, e.g. a rechargeable battery, that is capable of powering said pump 150 and an activator 154, here in the form of a push button, that controls the powering of the pump by the battery.The toy water gun further comprises an electrical pump drive 152, eg including a battery, eg a rechargeable battery, that is capable of powering said pump 150 and an activator 154, here in the form of a push button, that controls the powering of the pump by the battery.
Electrical wiring 157 is provided between the battery 152 and the activator 154. Moreover electrical wiring 156 is provided between the activator 142 and the pump 150. The electricalElectrical wiring 157 is provided between the battery 152 and the activator 154. Moreover electrical wiring 156 is provided between the activator 142 and the pump 150. The electrical
-40drive 153 connects to the wiring 156 of the toy water gun through an electrical connector 155.-40drive 153 connects to the wiring 156 or the toy water gun through an electrical connector 155.
Figure 4 shows a schematic illustration of toy water gun 200 provided with a soundproducing system.Figure 4 shows a schematic illustration of a toy water gun 200 provided with a sound-producing system.
The toy water gun 200 has an expandable water reservoir 250 that is expandable from a relaxed state occupying a relaxation volume indicated by solid contour 250a to an expanded state occupying an additional expansion volume indicated by dash line contour 250b, and compressible from said expanded state occupying said additional expansion volume 250b back to said relaxed state occupying said relaxation volume 250a. For example, the reservoir 250 comprises a resilient material, e.g. silicone rubber, body that is expandable by internal water pressure and that is self-compressible as the stretched body tends to return to a relatively relaxed state by itself. In another embodiment the resilient material body is, e.g. externally, pressurized by one or more resilient members, e.g. stretchable bands, around the resilient material body, or otherwise externally pressurized.The toy water gun 200 has an expandable water reservoir 250 that is expandable from a relaxed state occupying a relaxation volume indicated by solid contour 250a to an expanded state occupying an additional expansion volume indicated by dash line contour 250b, and compressible from said expanded state occupying said additional expansion volume 250b back to said relaxed state occupying said relaxation volume 250a. For example, the reservoir 250 comprises a resilient material, e.g., silicone rubber, body that is expandable by internal water pressure and that is self-compressible as the stretched body tends to return to a relatively relaxed state by itself. In another embodiment, the resilient material body is, e.g. externally, pressurized by one or more resilient members, e.g., stretchable bands, around the resilient material body, or otherwise externally pressurized.
A housing 201 of the toy water gun 200 is schematically depicted. The housing 201 has an exterior and an interior. Between the housing 201 and the expandable water reservoir 250 a chamber 202 is formed, which is an air chamber of variable volume. This volume depends, as the housing is rigid, on the actual volume of the reservoir 250.A housing 201 of the toy water gun 200 is schematically depicted. The housing 201 has an exterior and an interior. Between the housing 201 and the expandable water reservoir 250 a chamber 202 is formed, which is an air chamber or variable volume. This volume depends, as the housing is rigid, on the actual volume of the reservoir 250.
For example the housing 201 surrounds at least a part of the expandable fluid reservoir 250.For example the housing 201 surrounds at least a part of the expandable fluid reservoir 250.
The housing is provided with a passage 203 between the exterior and the interior thereof. The passage 203 is in communication with the chamber 202.The housing is provided with a passage 203 between the exterior and the interior thereof. The passage 203 is in communication with the chamber 202.
An airflow operated sound-producing element 204 is provided in or at the passage 203. The sound-producing element 204 is adapted to provide a water discharge related sound having a frequency spectrum that is at least partially audible with the human ear when in response to discharge of water from the gun 200, here including the (self-)compression of the expandable fluid reservoir 250 from the expanded state back to said relaxed state, an air flow occurs through the passage 203, here from the exterior to the interior of the housing.An airflow operated sound-producing element 204 is provided in or at the passage 203. The sound-producing element 204 is adapted to provide a water discharge related sound having a frequency spectrum that is at least partially audible with the human ear when in response to discharge of water from the gun 200, here including the (self) compression of the expandable fluid reservoir 250 from the expanded state back to said relaxed state, an air flow occurs through the passage 203, here from the exterior to the interior of the housing.
The expandable fluid reservoir 250 may be an expandable water reservoir. Said expandable water reservoir is expandable in response to a pressure exerted thereon by water, e.g. pressurized water, received within said reservoir 250 and compressing from said expandedThe expandable fluid reservoir 250 may be an expandable water reservoir. Said expandable water reservoir is expandable in response to a pressure exerted thereon by water, e.g., pressurized water, received within said reservoir 250 and compressing from said expanded
-41state occupying said additional expansion volume 250b back to said relaxed state occupying said relaxation volume 250a upon discharge of said water from said reservoir 250.-41state occupying said additional expansion volume 250b back to said relaxed state occupying said relaxation volume 250a upon discharge of said water from said reservoir 250.
The expandable fluid reservoir 250 may be an expandable gas reservoir as shown in Figures 2 and 3. In these Figures the expandable gas reservoir 250 is the first chamber 122 in a pressurization cylinder that is divided by a piston 121 in a first chamber 122 on one side of said piston and a second chamber 123 on the opposite side of said piston 121. The relaxed state of the gas reservoir 250 that occupies the relaxation volume 250a corresponds to the state wherein no pressure is exerted on said piston 121, and wherein the expanded state of the gas reservoir 250 that occupies an additional expansion volume 250b corresponds to the state wherein a force has been exerted on said piston 121. As a result of said force the volume of the first portion 122 has expanded by an additional expansion volume 250b at the expense of the volume of the second portion 123 of the pressurization chamber 120. The first chamber 122 and second chamber 123 are filled with a gas, possibly at a pressure different from atmospheric pressure.The expandable fluid reservoir 250 may be an expandable gas reservoir as shown in Figures 2 and 3. In these Figures the expandable gas reservoir 250 is the first chamber 122 in a pressurization cylinder that is divided by a piston 121 in a first chamber 122 on one side of said piston and a second chamber 123 on the opposite side of said piston 121. The relaxed state of the gas reservoir 250 that occupies the relaxation volume 250a agrees to the state says no pressure is exerted on said piston 121, and expanded state of the gas reservoir 250 that occupies an additional expansion volume 250b agreed to the state having a force has been exerted on said piston 121. As a result of said force the volume of the first portion 122 has expanded by an additional expansion volume 250b at the expense of the volume of the second portion 123 of the pressurization chamber 120. The first chamber 122 and second chamber 123 are filled with a gas, possibly at a pressure different from atmospheric pressure.
In the embodiment of Figure 4 the housing comprises a protrusion 205 on the exterior side thereof, wherein said protrusion 205 is provided around the passage 203 so as to extend said passage. The protrusion 205 facilitates the provision, amplification and/or spreading of said discharge sound, optionally also of a filling sound.In the embodiment of Figure 4 the housing comprises a protrusion 205 on the exterior side, said protrusion 205 is provided around the passage 203 so as to extend said passage. The protrusion 205 facilitates the provisioning, amplification and / or spreading of said discharge sound, optionally also of a filling sound.
In the embodiment of Figure 5 the housing is provided with a detachable first sound source 206 and an attachment portion 207. The detachable sound source 206 is detachable from and attachable to said attachment portion 207. In the embodiment of Figure 6 the detachable second sound source 207 is depicted as well as a portion of the housing around the passage 203 with the sound-producing device 204 and the protrusion 205. Alternatively, as in Figures 2 and 3, the attachment portion may extend to a portion of the protrusion 205 of the housing 200.In the embodiment of Figure 5 the housing is provided with a detachable first sound source 206 and an attachment portion 207. The detachable sound source 206 is detachable from and attachable to said attachment portion 207. In the edition of Figure 6 the detachable second sound source 207 is depicted as well as a portion of the housing around the passage 203 with the sound-producing device 204 and the protrusion 205. Alternatively, as in Figures 2 and 3, the attachment portion may extend to a portion of the protrusion 205 of the housing 200.
In Figure 6 a second sound source 208 is shown. The second sound source 208 comprises a sound-producing device 210 and may comprise a connector portion 209. The second sound source 208 is detachable from and attachable to said attachment portion 207 of the housing 200. Said sound-producing device 210 is adapted to provide a discharge sound having a frequency spectrum that is at least partially audible with the human ear when in response to the compression of the expandable fluid reservoir 100 from the expanded condition back to the relaxed condition an airflow occurs through the passage 203 from the exterior to the interior of the chamber 202. The frequency spectrum of the sound-producing device 210 ofIn Figure 6 a second sound source 208 is shown. The second sound source 208 comprises a sound-producing device 210 and may comprise a connector portion 209. The second sound source 208 is detachable from and attachable to said attachment portion 207 or the housing 200. Said sound-producing device 210 is adapted to provide a discharge sound having a frequency spectrum that is at least partially audible with the human ear when in response to the compression of the expandable fluid reservoir 100 from the expanded condition back to the relaxed condition an airflow occurs through the passage 203 from the exterior to the interior of the chamber 202. The frequency spectrum of the sound-producing device 210 or
-42the second sound source 208 is different from the frequency spectrum of the soundproducing device 204 of the first sound source 206.-42the second sound source 208 is different from the frequency spectrum of the sound-producing device 204 or the first sound source 206.
Figure 7 shows a schematic drawing of a toy water gun 300 according to the third aspect of the invention.Figure 7 shows a schematic drawing of a toy water gun 300 according to the third aspect of the invention.
The toy water gun 300 comprises an inlet 301 for water, e.g. pressurized water, a first water reservoir 302 in communication with said inlet 302 and a self-closing outlet nozzle 303. The self-closing outlet nozzle 303 is in communication with the first water reservoir through a main conduit 304 and opens in response to a water pressure exerted on the nozzle 303 by water in the conduit 304, thereby allowing water to be discharged through said nozzle 303.The toy water gun 300 comprises an inlet 301 for water, eg pressurized water, a first water reservoir 302 in communication with said inlet 302 and a self-closing outlet nozzle 303. The self-closing outlet nozzle 303 is in communication with the first water reservoir through a main conduit 304 and opens in response to a water pressure exerted on the nozzle 303 by water in the conduit 304, allowing water to be discharged through said nozzle 303.
The toy water gun 300 further comprises a pressurized second water reservoir 305 in communication with the conduit 304 and provided between the first water reservoir 302 and the self-closing outlet nozzle 303.The toy water gun 300 further comprises a pressurized second water reservoir 305 in communication with the conduit 304 and provided between the first water reservoir 302 and the self-closing outlet nozzle 303.
The toy water gun further comprises a throttle component 306 provided in said conduit 304 in between the first water reservoir 302 and the second water reservoir 305. The throttle component 306 is adapted to control by throttling, e.g. user adjustable, a flow rate of water in the conduit 304.The toy water gun further comprises a throttle component 306 provided in said conduit 304 in between the first water reservoir 302 and the second water reservoir 305. The throttle component 306 is adapted to control by throttling, eg user adjustable, a flow rate of water in the conduit 304.
The toy water gun 300 further comprises a trigger 307 operable by a user, e.g. between a holding position and a discharge position.The toy water gun 300 further comprises a trigger 307 operable by a user, e.g. between a holding position and a discharge position.
The gun 300 further has a discharge valve 308 provided in the main conduit 304 between the second water reservoir 305 and the self-closing outlet nozzle 303. The discharge valve is adapted to be switched between a closed position to an opened position in response to a actuation of the trigger 307, e.g. from the holding position to the discharge position. In the opened position said discharge valve 308 allows water to flow to the self-closing outlet nozzle 303.The gun 300 further has a discharge valve 308 provided in the main conduit 304 between the second water reservoir 305 and the self-closing outlet nozzle 303. The discharge valve is adapted to be switched between a closed position to an opened position in response to a actuation of the trigger 307, eg from the holding position to the discharge position. In the opened position said discharge valve 308 allows water to flow to the self-closing outlet nozzle 303.
The throttle component 306 here is a throttle valve, and is here adjustable by a user and can provide a pulsed-mode setting providing a repetitive water pulses discharge mode of the toy water gun so that, with the trigger moved and kept in the discharge position and thus the discharge valve 308 in opened position, a repetitive sequence is caused wherein, if the second water reservoir 305 is filled with water at or above said opening pressure of the nozzle 303 a pulse of water is discharged from said nozzle entailing the expulsion of aThe throttle component 306 here is a throttle valve, and is here adjustable by a user and can provide a pulsed mode setting providing a repetitive water pulses discharge mode or the toy water gun so that, with the trigger moved and kept in the discharge position and thus the discharge valve 308 in opened position, a repetitive sequence is caused, if the second water reservoir 305 is filled with water at or above said opening pressure of the nozzle 303 a pulse of water is discharged from said nozzle entailing the expulsion of a
-43portion of water from said second water reservoir 305, until said nozzle closes, and subsequently said second water reservoir is replenished with water from said first water reservoir 302 via said throttle component in said pulsed-mode throttle setting whilst said nozzle remains closed until said water in the second reservoir reaches a pressure at or above the opening pressure of the nozzle 303.-43portion of water from said second water reservoir 305, until said nozzle closes, and subsequently said second water reservoir is replenished with water from said first water reservoir 302 via said throttle component in said pulsed-mode throttle setting while said nozzle remains closed until said water in the second reservoir reaches a pressure at or above the opening pressure of the nozzle 303.
The toy water gun may further comprise pressurization means to pressurize water in said main conduit 304. Said pressurization means may be comprised in said first water reservoir 302 or associated therewith, e.g. an air pressurization arrangement using an air pump.The toy water gun may further include pressurization means to pressurize water in said main conduit 304. Said pressurization means may be included in said first water reservoir 302 or associated therewith, e.g., an air pressurization arrangement using an air pump.
Alternatively, as shown schematically in Figure 8, said pressurization means may include a water pump 309 provided in the conduit 304 between the first water reservoir and the throttle component 306.Alternatively, as shown schematically in Figure 8, said pressurization means may include a water pump 309 provided in the conduit 304 between the first water reservoir and the throttle component 306.
The first water reservoir 302 may be embodied as a first expandable water reservoir that is expandable e.g. in response to a pressure exerted thereon by pressurized water received in said reservoir 302. Said first water reservoir 302 may for instance be embodied as an expandable bladder, e.g. comprising a body of an elastomeric material.The first water reservoir 302 may be embodied as a first expandable water reservoir that is expandable eg in response to a pressure exerted thereon by pressurized water received in said reservoir 302. Said first water reservoir 302 may for instance be embodied as an expandable bladder, eg including a body or an elastomeric material.
The pressurized second water reservoir 305 may be an expandable second water reservoir 305 that is expandable in response to a pressure exerted thereon by pressurized water received in said second reservoir 305. Said second water reservoir may for instance be embodied as an expandable bladder, e.g. comprising a body of an elastomeric material.The pressurized second water reservoir 305 may be an expandable second water reservoir 305 that is expandable in response to a pressure exerted thereon by pressurized water received in said second reservoir 305. Said second water reservoir may for instance be embodied as an expandable bladder, eg. a body or an elastomeric material.
The pressurized second water reservoir 305 may be embodied as a water reservoir in a water reservoir assembly according to the first aspect of the invention. Thus, the second water reservoir 305 may comprise a water reservoir, a pressurization device, and a connector structure as described according to the first aspect of the invention. In such an embodiment, the discharge of water from the second water reservoir 305 is prevented and enabled by the self-closing outlet nozzle 303.The pressurized second water reservoir 305 may be embodied as a water reservoir in a water reservoir assembly according to the first aspect of the invention. Thus, the second water reservoir 305 may comprise a water reservoir, a pressurization device, and a connector structure as described according to the first aspect of the invention. In such an embodiment, the discharge of water from the second water reservoir 305 is prevented and enabled by the self-closing outlet nozzle 303.
In the embodiment of the toy water gun of Figures 7 and 8 the communication of the second water reservoir 305 with the conduit 304 is provided by a single connector conduit 310 that serves both as an inlet and as an outlet to the second water reservoir 305.In the embodiment of the toy water gun of Figures 7 and 8 the communication of the second water reservoir 305 with the conduit 304 is provided by a single connector conduit 310 that serves both as an inlet and as an outlet to the second water reservoir 305.
In the pulsed-mode setting of the throttle component 306 the self-closing outlet nozzle 303 may be adapted to close after a discharge of a pulse of water only when the second waterIn the pulsed-mode setting of the throttle component 306 the self-closing outlet nozzle 303 may be adapted to close after a discharge or a pulse of water only when the second water
-44reservoir 305 has become substantially empty of water, e.g. when at least 80% of the water that was in the second water reservoir 305 has been discharged. Thus the effective volume of said reservoir 305 then approximates the volume of a single pulse of water.44 reservoir 305 has become substantially empty of water, e.g. when at least 80% of the water that was in the second water reservoir 305 has been discharged. Thus the effective volume of said reservoir 305 then approximates the volume of a single pulse of water.
Moreover, in the pulsed-mode setting of the throttle component 306 the self-closing outlet nozzle 303 may only open when the second water reservoir 305 is fully filled with water and the second water reservoir 305 has expanded in response to the pressure exerted thereon by the water received in the second water reservoir 305.Moreover, in the pulsed-mode setting of the throttle component 306 the self-closing outlet nozzle 303 may only be open when the second water reservoir 305 is fully filled with water and the second water reservoir 305 has expanded in response to the pressure exerted thereon by the water received in the second water reservoir 305.
The throttle component 306 of the toy water gun 300 may be embodied to also provide a continuous-mode setting wherein, when the first water reservoir 302 has been filled with a water and the discharge control 307 is moved to and kept in the discharge position, the pressure of water in the conduit is such that the self-closing outlet nozzle 303 is in response to the pressure exerted thereon by the water from said first water reservoir 302 continuously open, so as to create a continuous discharge of water through said self-closing outlet nozzle 303. Thus, according to this embodiment water is discharged through the self-closing outlet nozzle both in the pulsed-mode setting and in the continuous-mode setting.The throttle component 306 or the toy water gun 300 may be embodied to also provide a continuous mode setting when, when the first water reservoir 302 has been filled with a water and the discharge control 307 has been moved to and kept in the discharge position, the pressure of water in the conduit is such that the self-closing outlet nozzle 303 is in response to the pressure exerted thereon by the water from said first water reservoir 302 continuously open, so as to create a continuous discharge or water through said self closing outlet nozzle 303. Thus, according to this embodiment water is discharged through the self-closing outlet nozzle both in the pulsed-mode setting and in the continuous-mode setting.
The self-closing outlet nozzle 303 may be embodied as a unitary self-closing outlet nozzle, for instance provided with a slit valve.The self-closing outlet nozzle 303 may be embodied as a unitary self-closing outlet nozzle, for instance provided with a slit valve.
Figure 9 shows a filling station 400 of a toy water gun system according to the fourth aspect of the invention.Figure 9 shows a filling station 400 or a toy water gun system according to the fourth aspect of the invention.
The toy water gun system according to the fourth aspect of the invention comprises a filling station and a toy water gun, e.g. a toy water gun as shown in Figure 2, 3, 7 or 8.The toy water gun system according to the fourth aspect of the invention comprises a filling station and a toy water gun, e.g. a toy water gun as shown in Figure 2, 3, 7 or 8.
The toy water gun comprises an expandable water reservoir that is expandable in response to a pressure exerted thereon by pressurized water received in said reservoir, a water inlet to provide pressurized water to said expandable water reservoir, an outlet nozzle in communication with said expandable water reservoir and a discharge control movable by a user between a holding position and a discharge position, wherein the discharge control in the discharge position allows water to be discharged from said expandable water reservoir via said nozzle.The toy water gun comprises an expandable water reservoir that is expandable in response to a pressure exerted thereon by pressurized water received in said reservoir, a water inlet to provide pressurized water to said expandable water reservoir, an outlet nozzle in communication with said expandable water reservoir and a discharge control movable by a user between a holding position and a discharge position, being in the discharge control in the discharge position allows water to be discharged from said expandable water reservoir via said nozzle.
The filling station 400 comprises a water inlet 401 and a water pump 402 to pressurize the water, wherein the inlet 403 of the pump 402 is in communication with the water inlet 401.The filling station 400 comprises a water inlet 401 and a water pump 402 to pressurize the water, the inlet 403 or the pump 402 is in communication with the water inlet 401.
-45The filling station moreover comprises an electrical drive 405 to electrically drive the pump 402 and a water outlet 406 to discharge water that has been pressurized by said pump 402, wherein the water outlet 406 is in communication with the outlet 404 of the pump 402.-45The filling station moreover comprises an electrical drive 405 to electrically drive the pump 402 and a water outlet 406 to discharge water that has been pressurized by said pump 402, the water outlet 406 is in communication with the outlet 404 or the pump 402.
The water inlet of the toy water gun is attachable to the water outlet 406 of the filling station so as to allow communication between said water outlet 406 and water inlet. The water inlet of the toy water gun is detachable from said water outlet 406.The water inlet or the toy water gun is attachable to the water outlet 406 or the filling station so as to allow communication between said water outlet 406 and water inlet. The water inlet or the toy water gun is detachable from said water outlet 406.
The filling station 400 may further comprise a water tank 407 adapted to store therein unpressurized water as shown in Figure 10. The water tank 407 in Figure 10 is provided in between the water inlet 401 and the inlet of the pump 403 and is in communication with the water inlet 401 and the pump 402. The water tank 407 is provided with a cap 414 covering the inlet 401 of the filling station.The filling station 400 may further include a water tank 407 adapted to store therein unpressurized water as shown in Figure 10. The water tank 407 in Figure 10 is provided in between the water inlet 401 and the inlet of the pump 403 and is in communication with the water inlet 401 and the pump 402. The water tank 407 is provided with a cap 414 covering the inlet 401 or the filling station.
The water inlet 401 of the toy water gun may in the embodiment of the filling station of Figure 9 be attachable to a water hose. Also in the embodiment of Figure 10 the water inlet may be connectable to a water hose. In the embodiment of Figure 10 water may also be provided to the filling station 400 without a water hose, e.g. by placing the water inlet 401 of the filling station 400 under a tap, e.g. by using a funnel provided to the inlet and a bucket with water.The water inlet 401 or the toy water gun may be in the embodiment of the filling station or Figure 9 be attachable to a water hose. Also in the embodiment of Figure 10 the water inlet may be connectable to a water hose. In the embodiment of Figure 10 water may also be provided to the filling station 400 without a water hose, eg by placing the water inlet 401 or the filling station 400 under a tap, eg by using a funnel provided to the inlet and a bucket with water.
In the embodiments of Figure 9 and 10 the electrical drive 405 comprises a battery, preferably a rechargeable battery.In the 9 of Figure 9 and 10 the electrical drive 405 comprises a battery, preferably a rechargeable battery.
In the embodiments of Figures 9 and 10 the filling station comprises a housing 408. The water reservoir 407 and pump 402 are provided substantially within the housing. The water outlet 406 of the filling station 400 extends at least partially from the housing 408.9 and 10 the filling station comprises a housing 408. The water reservoir 407 and pump 402 are provided substantially within the housing. The water outlet 406 or the filling station 400 extends at least partially from the housing 408.
In the embodiments of Figure 9 and 10 the water outlet 406 of the filling station comprises a connector tube 409, e.g. a flexible connector tube, that extends from the housing. The connector tube 409 has a pump end 409a in communication with the pump 402, more in particular in communication with the outlet 404 of the pump 402. The connector tube 409 has a water gun end 409b to which the toy water gun can be attached.In the 9 of Figure 9 and 10, the water outlet 406 or the filling station comprises a connector tube 409, e.g., a flexible connector tube, that extends from the housing. The connector tube 409 has a pump end 409a in communication with the pump 402, more in particular in communication with the outlet 404 or the pump 402. The connector tube 409 has a water gun end 409b to which the toy water gun can be attached.
In the embodiments of Figure 9 and 10 the filling station 400 comprises an activator 410. When the toy water gun has been attached to the water outlet 406 of the filling station 400 the pump 402 upon operation of the activator 410 pressures water that is provided to the filling station 400.The filling station 400 comprises an activator 410. When the toy water gun has been attached to the water outlet 406 or the filling station 400 the pump 402 upon operation of the activator 410 pressures water that is provided to the filling station 400.
-46In the embodiments of Figure 9 and 10 the filling station 400 is portable, e.g. by means of carrying grips 411 provided to the housing 408 of the filling station 400.The filling station 400 is portable, e.g. by means of carrying grips 411 provided to the housing 408 or the filling station 400.
In the embodiment of Figure 10 the tank 407 of the filling station 400 is portable, e.g. by means of the carrying grips 410. The tank is attachable and detachable from other components, e.g. the pump 402, electrical drive 405, actuator 410 and water outlet 406, of the filling station.In the embodiment of Figure 10 the tank 407 or the filling station 400 is portable, eg by means of the carrying grips 410. The tank is attachable and detachable from other components, eg the pump 402, electrical drive 405, actuator 410 and water outlet 406, or the filling station.
The volume of the water tank 407 of the filling station 400 may be multiple times the volume of the expandable water reservoir of the toy water gun, e.g. ten times the volume of the expandable water reservoir, e.g. five times the volume of the expandable water reservoir, e.g. three times the volume of the expandable water reservoir.The volume of the water tank 407 of the filling station 400 may be multiple times the volume of the expandable water reservoir or the toy water gun, eg at times the volume of the expandable water reservoir, eg five times the volume of the expandable water reservoir , eg three times the volume of the expandable water reservoir.
The toy water gun of the toy water gun system may comprise an expandable water reservoir comprising a water reservoir, a pressurization chamber and a rigid elongate element according to the first aspect of the invention.The toy water gun or the toy water gun system may include an expandable water reservoir including a water reservoir, a pressurization chamber and a rigid elongate element according to the first aspect of the invention.
In addition, the toy water gun of the toy water gun system may comprise a sound-producing design according to the second aspect of the invention.In addition, the toy water gun or the toy water gun system may include a sound-producing design according to the second aspect of the invention.
The toy water gun system may for instance comprise the filling station of Figure 9 and 10 and the toy water gun of Figures 2 and 3 with expandable water reservoir 100 and/or soundproducing housing 200.The toy water gun system may include the filling station of Figure 9 and 10 and the toy water gun or Figures 2 and 3 with expandable water reservoir 100 and / or soundproducing housing 200.
With reference to figures 11 - 22 a toy water gun system according to at least the fifth aspect of the invention will be explained.With reference to figures 11 - 22 a toy water gun system according to at least the fifth aspect of the invention will be explained.
Generally the toy water gun system comprises a hand held toy water gun 500 and one or more, preferably multiple, cartridges 600. In this embodiment the water gun 500 is designed to be loaded with a single cartridge at a time.Generally the toy water gun system comprises a hand held toy water gun 500 and one or more, preferably multiple, cartridges 600. In this edition the water gun 500 is designed to be loaded with a single cartridge at a time.
As will be explained below, and as is preferred, the cartridge 600 is a pre-pressurized type cartridge which - when filled - stores a volume of water in its reservoir at an above atmospheric pressure. For example in an embodiment and when filled directly from a water mains, said pressure approximates the water mains pressures.As will be explained below, and as is preferred, the cartridge 600 is a pre-pressurized cartridge type which - when filled - stores a volume or water in its reservoir at an above atmospheric pressure. For example in an embodiment and when filled directly from a water mains, said pressure approximates the water mains pressures.
-47Generally, whilst not shown here, the water gun 500 comprises a water circuit comprising:-47Generally, while not shown here, the water gun 500 comprises a water circuit including:
- a water discharge outlet, 501- a water discharge outlet, 501
- a discharge control, here a discharge valve operated by a trigger 502. This allows a user to control the discharge from water discharge outlet,- a discharge control, here a discharge valve operated by a trigger 502. This allows a user to control the discharge from water discharge outlet,
- a first connector 503, here a male connector, having an inlet of said water circuit.- a first connector 503, here a male connector, having an inlet or said water circuit.
The cartridge 600 has a cartridge housing 601, e.g. of robust plastic material, e.g. impact resistant plastic material.The cartridge 600 has a cartridge housing 601, e.g., or robust plastic material, e.g., impact resistant plastic material.
Within said housing 601 a water reservoir 605 is arranged that is adapted to store a water volume therein.Within said housing 601 a water reservoir 605 is arranged that is adapted to store a water volume therein.
Here the reservoir 605 is a pre-pressurizable water reservoir that is adapted to store water therein under pressure. In more detail the reservoir 605 has a body of resilient or elastic stretchable material, e.g. of silicone rubber, that is expanded (see figure 21) upon feeding pressurized water into said expandable body and that is self-compressing so as to return to a relaxed condition(see figure 22). As is preferred the housing 601 delimits the most expanded state of the reservoir 605.Here the reservoir 605 is a pre-pressurizable water reservoir that is adapted to store water therein under pressure. In more detail the reservoir 605 has a body of resilient or elastic stretchable material, eg or silicone rubber, that is expanded (see figure 21) upon feeding pressurized water into said expandable body and that is self-compressing so as to return to a relaxed condition (see figure 22). As is preferred the housing 601 delimits the most expanded state of the reservoir 605.
The reservoir 605 has a single opening, the perimeter thereof being secured to the housing 601, e.g. as here by being clamped between a clamping collar part 602 of the housing and a beaker shaped part 603 of the housing.The reservoir 605 has a single opening, the perimeter being secured to the housing 601, e.g. as here by being clamped between a clamping collar part 602 or the housing and a beaker shaped part 603 or the housing.
The cartridge 600 is provided with a second connector 620, here a female connector.The cartridge 600 is provided with a second connector 620, here a female connector.
In more detail the second connector 620 comprises a tubular, open ended portion 604, of the collar part 603. This portion 604 is provided with one or more water ports 606. The portion 604 extends into the reservoir 605. The bore 608 of the female connector is thus formed by this tubular portion 604 that stationary secured to the housing 601 of the cartridge 600.In more detail the second connector 620 comprises a tubular, open ended portion 604, or the collar part 603. This portion 604 is provided with one or more water ports 606. The portion 604 extends into the reservoir 605. The bore 608 of the female connector is thus formed by this tubular portion 604 that is stationary secured to the housing 601 or the cartridge 600.
A rotary valve member 610 is journalled externally about the tubular portion 604. The member 610 has one or more ports 611, here just as the portion 604 one or more radial ports. In a first angular position these ports 606, 611 are out of alignment such that said rotary valve is closed (see figure 21) and in a second angular position these ports 606, 611 are aligned so that said rotary valve of the cartridge 600 is open.A rotary valve member 610 is journalled externally about the tubular portion 604. The member 610 has one or more ports 611, here just as the portion 604 one or more radial ports. In a first angular position these ports 606, 611 are out of alignment such that said rotary valve is closed (see figure 21) and in a second angular position these ports 606, 611 are aligned so that said rotary valve of the cartridge 600 is open .
The cartridge 600 is releasably connectable to the toy water gun 500 and the first and second connectors 503, 620 are connectable to one another so as to establish a connectionThe cartridge 600 is releasably connectable to the toy water gun 500 and the first and second connectors 503, 620 are connectable to one another so as to establish a connection
-48between the water port of the water reservoir 605 of the cartridge 600 and the inlet of the water circuit of the handheld to water gun 500.-48between the water port of the water reservoir 605 or the cartridge 600 and the inlet of the water circuit or the handheld to water gun 500.
As will be appreciated the first and second connectors are adapted to be connected to one another by advancing the cartridge 600 along a connection axis relative to the toy water gun 500 into an advanced position of the cartridge 600 and to be disconnected from one another to be retracting the cartridge along said connection axis.As will be appreciated the first and second connectors are adapted to be connected to one another by advancing the cartridge 600 along a connection axis relative to the toy water gun 500 into an advanced position of the cartridge 600 and to be disconnected from one another to be retracting the cartridge along said connection axis.
The toy water gun 500 comprises a core member 510 aligned with the connector axis and provided at one end thereof with the male first connector 503.The toy water gun 500 comprises a core member 510 aligned with the connector axis and provided at one end with the male first connector 503.
A water duct 505 extends through the core member 510 and the connector 503 to the inlet 504 formed by one or more radial ports in the connector 503.A water duct 505 extends through the core member 510 and the connector 503 to the inlet 504 formed by one or more radial ports in the connector 503.
As can be seen in figures 18-20 the male first connector 503 is provided with a first valve assembly which is adapted to close the inlet 504 of the water circuit in case the cartridge 600 is disconnected from the toy water gun 500, and to open the inlet of said water circuit in case said cartridge is connected to said toy water gun 500.As can be seen in figures 18-20 the male first connector 503 is provided with a first valve assembly which is adapted to close the inlet 504 or the water circuit in case the cartridge 600 is disconnected from the toy water gun 500, and to open the inlet of said water circuit in case said cartridge is connected to said toy water gun 500.
In more detail the first valve assembly comprises a rotary valve member 512 that is arranged around the male first connector 503 and that is rotatable relative to said connector between first and second angular positions. The tubular rotary valve member 512 comprises one or more ports 513, here radial, therein which in said first angular position non-aligned with the one or more ports 504 and in said second position are aligned so that the first valve assembly is open.In more detail the first valve assembly comprises a rotary valve member 512 that is arranged around the male first connector 503 and that is rotatable relative to said connector between first and second angular positions. The tubular rotary valve member 512 includes one or more ports 513, here radial, therein which in said first angular position is non-aligned with the one or more ports 504 and in said second position are aligned so that the first valve assembly is open.
As will be explained later, it is envisaged that the first rotary valve member 512 couples to the housing 601 of the advanced cartridge so as to be held in same position as said cartridge housing and thus to be rotated about the connection axis along with the rotation of the cartridge housing itself.As will be explained later, it is envisaged that the first rotary valve member 512 couples to the housing 601 of the advanced cartridge so as to be hero in the same position as said housing and thus to be rotated about the connection axis along with the rotation or the cartridge housing itself.
The toy water gun further comprises a cartridge carrier 530 adapted to receive the cartridge 600. The carrier 530 is translatable in the toy water gun. In more detail the combination of the carrier 530 and the loaded cartridge 600 is manually translatable along the connection axis. The carrier 530 is adapted to receive the cartridge 600 therein in a retracted position of the carrier.The toy water gun further comprises a cartridge carrier 530 adapted to receive the cartridge 600. The carrier 530 is translatable in the toy water gun. In more detail the combination of the carrier 530 and the loaded cartridge 600 is manually translatable along the connection axis. The carrier 530 is adapted to receive the 600 cartridge in a retracted position of the carrier.
-49In the depicted embodiment the carrier 530 has a receiving cradle 535 into which a portion of the cartridge is laterally insertable, perpendicular to said connection axis. Once inserted laterally the cradle 535 retains the cartridge 600 axially, so in direction of said connection axis.-49In the depicted embodiment of the carrier 530 has a receiving cradle 535 into which a portion of the cartridge is laterally insertable, perpendicular to said connection axis. Once inserted laterally the cradle 535 retains the cartridge 600 axially, so in direction or said connection axis.
The carrier 530 further comprises an annular portion 540 that is mounted over the core member 510 and translatable along said core member 510. The carrier 530 is also rotatable about the core member 510 between first and second angular positions, corresponding to first and second angular positions of the first and second valves of the system.The carrier 530 further comprises an annular portion 540 that is mounted over the core member 510 and translatable along said core member 510. The carrier 530 is also rotatable about the core member 510 between first and second angular positions, corresponding to first and second angular positions or the first and second valves of the system.
The cartridge carrier 530 is provided with a bolt handle 550 for manual engagement by a user.The cartridge carrier 530 is provided with a bolt handle 550 for manual engagement by a user.
The toy water gun has an external housing 560 that is provided with an L-shaped bolt handle slot 565, with a longitudinal portion 565a through which said bolt handle 550 is slided by the user for advancing and retracting the carrier 530 along the connection axis, and a transverse portion 565b at an advanced position end of said longitudinal portion through which said bolt handle 550 is slided by a user for rotating the carrier about said connection axis.The toy water gun has an external housing 560 that is provided with an L-shaped bolt handle lock 565, with a longitudinal portion 565a through which said bolt handle 550 is slided by the user for advancing and retracting the carrier 530 along the connection axis, and a transverse portion 565b at an advanced position end of said longitudinal portion through which said bolt handle 550 is slided by a user for rotating the carrier about said connection axis.
The depicted toy water gun also comprises a bayonet structure that locks the carrier 530, and thus the retained cartridge 600, in axial direction, here in addition to the bayonet structure of the bolt handle and the associated slot in the external housing. Alternatively said bayonet between the carrier and the core member can replace the bolt handle and slot type bayonet.The depicted toy water gun also comprises a bayonet structure that locks the carrier 530, and thus the retained cartridge 600, in axial direction, here in addition to the bayonet structure of the bolt handle and the associated lock in the external housing. Alternatively said bayonet between the carrier and the core member can replace the bolt handle and lock type bayonet.
Here the core member is provided with an L-shaped bayonet groove 515 and the carrier 530 is provided with a mating boss 516. The groove 515 has a longitudinal portion 515a parallel to the connection axis and a locking portion 515b at an end of said longitudinal portion and transverse to said longitudinal portion. This bayonet structure is arranged such that, upon advancing the cartridge 600 by means of the carrier 500 to the advanced position thereof, the boss 516 slides through said longitudinal portion thereby preventing a manually caused rotation of the rotary valve member of the cartridge 600 from the first angular position into the second angular position, and such that, upon having reached the advanced position of the cartridge and the user manually causing rotation of the rotary valve member from said first angular position into said second angular position, the boss 516 slides through the lockingHere the core member is provided with an L-shaped bayonet groove 515 and the carrier 530 is provided with a mating boss 516. The groove 515 has a longitudinal portion 515a parallel to the connection axis and a locking portion 515b at an end of said longitudinal portion and transverse to said longitudinal portion. This bayonet structure is arranged such that, upon advancing the cartridge 600 by means of the carrier 500 to the advanced position, the boss 516 slides through said longitudinal portion preventing a manually caused rotation of the rotary valve member of the cartridge 600 from the first angular position into the second angular position, and such that, upon having reached the advanced position of the cartridge and the user manually causing rotation of the rotary valve member from said first angular position into said second angular position, the boss 516 slides through the locking
-50portion of the bayonet groove 515 thereby opening the second valve assembly and preventing a retraction of the cartridge along said connection axis.-50portion of the bayonet groove 515 opening the second valve assembly and preventing a retraction of the cartridge along said connection axis.
Due to the coupling of the rotary valve member of the first valve to the cartridge housing in the advance position, the rotation of the carrier 530 also causes the first valve assembly to be opened. So now pressurized water stored in the pre-pressurized cartridge 600 can flow into the water circuit of the toy water gun and, e.g. expelled upon actuation of the trigger thereof.Due to the coupling of the rotary valve member of the first valve to the cartridge housing in the advance position, the rotation of the carrier 530 also causes the first valve assembly to be opened. So now pressurized water stored in the pre-pressurized cartridge 600 can flow into the water circuit or the toy water gun, e.g. expelled upon actuation of the trigger.
For effecting the opening of the second valve it is envisaged the first connector 503 is, here at the front end thereof, provided with a first coupling member 517, here a protrusion.For effecting the opening of the second valve it is envisaged the first connector is 503, here at the front end, provided with a first coupling member 517, here a protrusion.
The rotary valve member comprises a second coupling portion, here a cavity 618 into which the protrusion is received and a torsional connection is obtained. This second coupling portion is such that, when the rotary valve member is in said first angular position, it is adapted to couple to the first coupling portion upon said axial advancing of the cartridge along a connection axis relative to the toy water gun into said advanced position. As the rotary member is now as it were stationary retained, a subsequent rotation of the carrier 530 and the cartridge 600 causes the second valve to open.The rotary valve member comprises a second coupling portion, here a cavity 618 into which the protrusion is received and a torsional connection is obtained. This second coupling portion is such that when the rotary valve member is in said first angular position, it is adapted to couple to the first coupling portion after said axial advancing or the cartridge along a connection axis relative to the toy water gun into said advanced position. As the rotary member is now as it were stationary retained, a subsequent rotation of the carrier 530 and the cartridge 600 causes the second valve to open.
It is also depicted that the toy water gun is provided with a water feed connector 570, here a hose coupler for a garden hose, which connecter is connected to said water circuit, e.g. via a check valve. This allows to fill an empty cartridge 600 when connected to the toy water gun 500.It is also depicted that the toy water gun is provided with a water feed connector 570, here a hose coupler for a garden hose, which connecter is connected to said water circuit, e.g. via a check valve. This allows to fill an empty cartridge 600 when connected to the toy water gun 500.
Figure 23 depicts a toy water gun system comprising a toy water gun 700 and comprising a water circuit comprising:Figure 23 depicts a toy water gun system including a toy water gun 700 and including a water circuit including:
- a water discharge outlet 701,- a water discharge outlet 701,
- a discharge control 702 operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,- a discharge control 702 operable by a user allowing water to be controllably discharged from said water reservoir via said water discharge outlet,
- multiple first connectors 703, here male connectors, each having an inlet of said water circuit.- multiple first connectors 703, here male connectors, each having an inlet or said water circuit.
The water gun can be loaded with multiple cartridges 600, here three, each having a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port of said water reservoir.The water gun can be loaded with multiple cartridges 600, here three, each having a cartridge housing and being provided with a water reservoir adapted to store a water volume therein, said cartridge further being provided with a second connector having a water port of said water reservoir.
-51Here, each cartridge is releasably connectable to the toy water gun 700 and the first and second connectors are connectable in pairs to one another so as to establish a connection between the water port of the water reservoir of the cartridge and the inlet of the water circuit of the toy water gun.-51Here, each cartridge is releasably connectable to the toy water gun 700 and the first and second connectors are connectable in pairs to another so as to establish a connection between the water port of the water reservoir or the cartridge and the inlet of the water circuit of the toy water gun.
As can be seen each first connector 703 is provided with a first valve assembly, here with a sliding tubular valve member 704 that is urged by a spring 705 into a closed position wherein the member 704 closes a radial port in the connector 703. As can be seen upon connecting a cartridge 600 to the respective connector 703 the valve 704 is pressed down to open the first valve assembly. When removing a cartridge 600 the valve 704 automatically closes, thereby keeping the circuit closed so that the one or more other loaded cartridges remain operational.As can be seen each first connector 703 is provided with a first valve assembly, here with a sliding tubular valve member 704 that is urged by a spring 705 into a closed position according to the member 704 closes a radial port in the connector 703. As can seen upon connecting a cartridge 600 to the respective connector 703 the valve 704 is pressed down to open the first valve assembly. When removing a cartridge 600 the valve 704 automatically closes, keep keeping the circuit closed so that one or more other loaded cartridges remain operational.
Generally as described with reference to figures 11-22 the cartridges 600 are each provided with a rotary valve assembly and with a second connector.Generally as described with reference to figures 11-22 the cartridges 600 are each provided with a rotary valve assembly and with a second connector.
The first and second connectors are adapted to be connected to one another by advancing the cartridge 600 along a connection axis relative to the toy water gun into an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis.The first and second connectors are adapted to be connected to one another by advancing the cartridge 600 along a connection axis relative to the toy water gun to an advanced position of the cartridge and to be disconnected from one another to be retracting the cartridge along said connection axis.
In this embodiment the toy gun has no cartridge carrier and the cartridges are directly manually placed on the toy gun with the connectors being interconnected.In this embodiment the toy gun has no cartridge carrier and the cartridges are directly manually placed on the toy gun with the connectors being interconnected.
The second connector comprises a base mounted to the cartridge housing and a rotary valve member journaled to the base.The second connector comprises a base mounted to the cartridge housing and a rotary valve member journaled to the base.
The eleventh aspect of the invention relates to a toy water gun water reservoir assembly and will be discussed with reference to figures 24, 25, and 26.The eleventh aspect of the invention relates to a toy water gun water reservoir assembly and will be discussed with reference to figures 24, 25, and 26.
The toy water gun water reservoir assembly 900 comprises:The toy water gun assembly 900 water comprises:
a variable volume water chamber 901 having an inlet and an outlet for water, here a combined inlet and outlet 902 for water, e.g. said combined inlet and outlet being provided with a self-closing valve, e.g. a slit valve (not shown), a reciprocable water piston member 903 bounding said variable volume water chamber 902, said water piston member being reciprocable between an emptied position where the water chamber is empty (not shown) and a filled position wherein the water chamber is filled with water (shown), a variable volume vacuum chamber 905, a vacuum chamber piston member 906 bounding said variable volume vacuum chamber,a variable volume water chamber 901 having an inlet and outlet for water, here a combined inlet and outlet 902 for water, eg said combined inlet and outlet being provided with a self-closing valve, eg a slit valve (not shown), a reciprocable water piston member 903 bound said variable volume water chamber 902 said water piston member being reciprocable between an emptied position where the water chamber is empty (not shown) and a filled position the water chamber is filled with water (shown), a variable volume vacuum chamber 905, a vacuum chamber piston member 906 bounding said variable volume vacuum chamber,
-52wherein said water piston member 903 and said vacuum chamber piston member 906 are mechanically connected and form a piston assembly 910, a user operable locking device 920 adapted to lock and unlock said piston assembly 910, at least in the filled position of the water piston member (shown), so that, in use, filling water into the variable water chamber causes said piston assembly 910 to move with said water piston thereof into the filled position, in which process a vacuum or deeper vacuum is caused in the vacuum chamber 905, wherein the user operable locking device 920 allows to lock said piston assembly as said water piston member 903 is in said filled position, e.g. automatically causing said locking when in said filled position, and wherein said user operable locking device 920 is unlockable by the user so that the vacuum acting on the vacuum chamber piston member 906 causes the water in the water chamber to be pressurized in order of expulsion thereof from the water reservoir assembly.-52wherein said water piston member 903 and said vacuum chamber piston member 906 are mechanically connected and form a piston assembly 910, a user operable locking device 920 adapted to lock and unlock said piston assembly 910, at least in the filled position of the water piston member (shown), so that, in use, filling water into the variable water chamber causes said piston assembly 910 to move with said water piston into the filled position, in which process a vacuum or deeper vacuum is caused in the vacuum chamber 905 , the user operable locking device 920 allows to lock said piston assembly as said water piston member 903 is in said filled position, eg automatically causing said locking when in said filled position, and said user operable locking device 920 is unlockable by the user so that the vacuum acting on the vacuum chamber piston member 906 causes the water in the water chamber to be pressurized in order of expulsion from the water reservoir assembly.
In this aspect of the invention vacuum is used a power source to pressurize the water for its expulsion. The locking device 920 allows the water to be non-pressurized, or hardly pressurized, as long as the locking device 920 actually holds the piston assembly 910. As soon as the user unlocks the device 920, the vacuum force is transmitted via the piston assembly 910 and causes the water to become truly pressurized. This allows for example for a design of a releasable toy water gun cartridge that has a very simple valve to keep the water in the filled cartridge, whilst the power to pressure the water being readily available within the vacuum chamber. For example a simple slit valve will suffice to keep the water in the reservoir assembly.In this aspect of the invention vacuum is used a power source to pressurize the water for its expulsion. The locking device 920 allows the water to be non-pressurized, or hardly pressurized, as long as the locking device 920 actually holds the piston assembly 910. As soon as the user unlocks the device 920, the vacuum force is transmitted via the piston assembly 910 and causes the water to become truly pressurized. This allows for example for a design of a releasable toy water gun cartridge that has a very simple valve to keep the water in the filled cartridge, while the power to pressure the water being readily available within the vacuum chamber. For example a simple slit valve will suffice to keep the water in the reservoir assembly.
The toy water gun water reservoir assembly can be by itself used as a toy water gun, e.g. the outlet 902 of the water reservoir assembly forming the discharge nozzle thereof.The toy water gun assembly can be used by itself as a toy water gun, e.g., the outlet 902 of the water reservoir assembly forming the discharge nozzle.
In other embodiments, as shown here, the toy water gun water reservoir assembly is embodied as a cartridge that is provided with a coupler for releasable coupling to a toy water gun, e.g. a single toy water gun having multiple couplers to allow simultaneous connection of multiple of such vacuum powered cartridges.In other variants, as shown here, the toy water gun water reservoir assembly is embodied as a cartridge that is provided with a coupler for releasable coupling to a toy water gun, eg a single toy water gun having multiple couplers to allow simultaneous connection of multiple or such vacuum powered cartridges.
In an embodiment the reservoir assembly comprises a main housing 930 with a first cylinder part 931 of a first inner diameter and having at one axial end a bottom 932, and with a second cylinder part 933 that adjoins the other axial end of the first cylinder part and has a second inner diameter smaller than the first inner diameter. A piston assembly 910 is provided with a water piston member 903 that is reciprocable in the second cylinder part 933 and is provided with a vacuum chamber piston member 906 that is reciprocable in the first cylinder part 931. The connection between them is formed by a piston rod 935, as isIn an embodiment the reservoir assembly comprises a main housing 930 with a first cylinder part 931 or with a first inner diameter and having at one axial end a bottom 932, and with a second cylinder part 933 that adjoins the other axial end of the first cylinder part and has a second inner diameter narrower than the first inner diameter. A piston assembly 910 is provided with a water piston member 903 that is reciprocable in the second cylinder part 933 and is provided with a vacuum chamber piston member 906 that is reciprocable in the first cylinder part 931. The connection between them is formed by a piston rod 935, as
-53preferred a hollow piston rod 935 having an inner chamber 936 that is in open connection with the second cylinder 933 so as to enlarge the volume of the water chamber 901. The vacuum chamber 905 is then formed around the piston rod 935 in the first cylinder part 931.-53preferred a hollow piston rod 935 having an inner chamber 936 that is in open connection with the second cylinder 933 so as to enlarge the volume of the water chamber 901. The vacuum chamber 905 is then formed around the piston rod 935 in the first cylinder part 931.
A sealing gland 937 is provided where the piston rod 935 extends into the second cylinder part 933. The bottom of the first cylinder has one or more openings 938, so as to expose one side of the vacuum piston member 906 to ambient pressure.A sealing gland 937 is provided where the piston rod 935 extends into the second cylinder part 933. The bottom of the first cylinder has one or more opening 938, so as to expose one side of the vacuum piston member 906 to ambient pressure.
If desired a reset vent 941 with a valve 942 therein may be provided for the vacuum chamber allowing a user to restore vacuum in the chamber 905 in case air has managed to get inside, e.g. along a seal of piston 906.If desired, reset a 941 vent with a 942 valve therein may be provided for the vacuum chamber allowing a user to restore vacuum in the chamber 905 in case air has been managed to get inside, e.g.
The locking device 920 is arranged at or near the bottom of the first cylinder part 931, here so as to engage of the vacuum piston member 906.The locking device 920 is arranged at or near the bottom of the first cylinder part 931, here so as to engage the vacuum piston member 906.
For example the locking device 920 comprises a spring 922 loaded locking member 921 that automatically locks the piston assembly when the reservoir is full. For example the locking device comprises a push button 923 to operate the locking member, e.g. for unlocking against a spring force.For example the locking device 920 comprises a spring 922 loaded locking member 921 that automatically locks the piston assembly when the reservoir is full. For example, the locking device comprises a push button 923 to operate the locking member, e.g., for unlocking against a spring force.
The reservoir assembly can be permanently integrated in a toy water gun if desired, so without the option for releasing by the user. More preferred such user release is possible, e.g. for remote filling of the water reservoir assembly.The reservoir assembly can be permanently integrated into a toy water gun if desired, so without the option for releasing by the user. More preferred such user release is possible, e.g. for remote filling of the water reservoir assembly.
The reservoir assembly can be combined with a toy water gun into a system, e.g. with each having mating couplers, e.g. with a simple screw thread or bayonet connector between the toy water gun and the releasable reservoir assembly. One would be able to mechanically connect first, with the locking device still locked, and then later unlock the locking device to effectively cause pressurization of the water therein. If the toy water gun has a trigger a mechanism could be provided so as to connect the trigger to the locking device, so that operation of the trigger unlocks the locking device.The reservoir assembly can be combined with a toy water gun into a system, e.g. with each having mating couplers, e.g. with a simple screw thread or bayonet connector between the toy water gun and the releasable reservoir assembly. One would be able to connect mechanically first, with the locking device still locked, and then later unlock the locking device to effectively cause pressurization of the water therein. If the toy water gun has a trigger a mechanism could be provided so as to connect the trigger to the locking device, so that operation of the trigger unlocks the locking device.
One can also envisage a revolver type toy water gun with multiple of these water reservoirs on a revolving structure, and with a trigger that allows the user to unlock on locking device after the other as the one water reservoir assembly is moved out of the firing position and replaced by a full water reservoir assembly.One can also envisaged a revolver type toy water gun with multiple of these water reservoirs on a revolving structure, and with a trigger that allows the user to unlock on locking device after the other as the one water reservoir assembly is moved out of the firing position and replaced by a full water reservoir assembly.
Claims (58)
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NL2017165A NL2017165B1 (en) | 2016-07-14 | 2016-07-14 | Toy water gun |
PCT/NL2017/050473 WO2018012973A1 (en) | 2016-07-14 | 2017-07-13 | Toy water gun |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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NL2017165A NL2017165B1 (en) | 2016-07-14 | 2016-07-14 | Toy water gun |
Publications (1)
Publication Number | Publication Date |
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NL2017165B1 true NL2017165B1 (en) | 2018-01-18 |
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ID=56990930
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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NL2017165A NL2017165B1 (en) | 2016-07-14 | 2016-07-14 | Toy water gun |
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NL (1) | NL2017165B1 (en) |
WO (1) | WO2018012973A1 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114136149A (en) * | 2021-12-06 | 2022-03-04 | 永康市星钻工贸有限公司 | Water gun |
CN114459282B (en) * | 2022-02-14 | 2024-02-20 | 东莞市山普斯科技有限公司 | Automatic water gun |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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US3116855A (en) * | 1961-03-22 | 1964-01-07 | James L Thomson | Toy water gun |
US20050072794A1 (en) * | 2003-10-06 | 2005-04-07 | Zimmerman Jeffrey C. | Water gun with adjustable force pressure chamber |
US20050167441A1 (en) * | 2004-01-30 | 2005-08-04 | Zimmerman Jeffrey C. | Single pump water gun with adjustable force pressure chamber |
US8469234B1 (en) * | 2009-10-02 | 2013-06-25 | Loominocity Inc. | Toy water gun apparatus |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1063146A (en) | 1965-11-08 | 1967-03-30 | Mak S Ind Company Ltd | Improvements in or relating to toy water pistols |
US4757946A (en) | 1985-12-09 | 1988-07-19 | Johnson Lonnie G | Flow actuated pulsator |
US5662244A (en) | 1995-07-14 | 1997-09-02 | Lcd International, L.L.C. | Toy weapon firing a liquid projectile |
IL121611A0 (en) | 1997-08-24 | 1998-02-08 | Barish Benjamin J | Water discharge device particularly useful as toy water gun |
US6345732B1 (en) | 1999-06-11 | 2002-02-12 | Larami Limited | Water gun with removable pre-pressurizable cartridge |
US7922039B2 (en) | 2007-05-07 | 2011-04-12 | Hasbro, Inc. | Toy water gun with selectable pulse and stream discharge nozzles |
US8316897B2 (en) | 2009-01-25 | 2012-11-27 | Mattel, Inc. | Water gun assembly |
-
2016
- 2016-07-14 NL NL2017165A patent/NL2017165B1/en not_active IP Right Cessation
-
2017
- 2017-07-13 WO PCT/NL2017/050473 patent/WO2018012973A1/en active Application Filing
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3116855A (en) * | 1961-03-22 | 1964-01-07 | James L Thomson | Toy water gun |
US20050072794A1 (en) * | 2003-10-06 | 2005-04-07 | Zimmerman Jeffrey C. | Water gun with adjustable force pressure chamber |
US20050167441A1 (en) * | 2004-01-30 | 2005-08-04 | Zimmerman Jeffrey C. | Single pump water gun with adjustable force pressure chamber |
US8469234B1 (en) * | 2009-10-02 | 2013-06-25 | Loominocity Inc. | Toy water gun apparatus |
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