The present invention relates to water toys and more particularly to bath toys.
Various types of bath toys are known.
The present invention seeks to provide improved bath toys.
There is thus provided in accordance with a preferred embodiment of the present invention a mutually opposite generally horizontal gravity-driven flow water toy including at least first and second water inlets, at least first and second generally vertical water conduits coupled to respective ones of the at least first and second water inlets for directing a gravity flow of water therethrough from the respective ones of the first and second water inlets, at least first and second generally horizontal water conduits coupled to respective ones of the at least first and second generally vertical water conduits for directing a gravity flow of water therethrough from the respective ones of the first and second water inlets and via respective ones of the at least first and second generally vertical water conduits, the at least first and second generally horizontal water conduits being arranged such that the gravity flow of water therethrough is in generally opposite directions.
Preferably, the at least first and second generally horizontal water conduits are mutually parallel. Additionally or alternatively, the first and second generally horizontal water conduits are integrally formed with each other. Additionally or alternatively, the first and second generally horizontal water conduits are defined within a common outer generally horizontal conduit.
In accordance with a preferred embodiment of the present invention the mutually opposite generally horizontal gravity-driven flow water toy also includes a first water turbine driven by a gravity flow of water from the first water inlet via the first water conduit and driving a visually sensible fanciful moving display, a second water turbine driven by a gravity flow of water from the second water inlet via the second water conduit, the second water turbine being visible and child engageable and stoppable.
Preferably, the mutually opposite generally horizontal gravity-driven flow water toy also includes a first water turbine driven by a gravity flow of water from the first water inlet via the first water conduit and driving a visually sensible fanciful moving display. Additionally or alternatively, the second water conduit receiving water includes a plurality of spray exit apertures therein.
In accordance with a preferred embodiment of the present invention the mutually opposite generally horizontal gravity-driven flow water toy also includes a first water turbine assembly driven by a gravity flow of water from the first water inlet via the first water conduit and driving a visually sensible fanciful moving display, a second water turbine assembly driven by a gravity flow of water from the second water inlet via the second water conduit, the second water turbine assembly being visible and child engageable and stoppable, a third water conduit coupled to the second water receptacle, a third water turbine assembly driven by a gravity flow of water from the second water inlet via the first water conduit and driving a visually sensible fanciful moving display and a fourth water conduit receiving water from the first water receptacle and having a plurality of spray exit apertures therein.
There is also provided in accordance with another preferred embodiment of the present invention a water impingement driven toy including a plurality of mutually interdigitated water spray drivable wheels arranged for rotation in a generally vertical plane in response to impingement thereof of a flow of water, and a plurality of rotatable hubs onto which the mutually interdigitated water spray drivable wheels are mounted, the plurality of rotatable hubs being arranged for rotation about generally horizontally axes, each of the plurality of hubs having a different geometrical outer circumferential configuration; each of the plurality of mutually interdigitated water spray drivable wheels having a different geometrical inner circumferential configuration corresponding to one of the geometrical outer circumferential configurations of the plurality of hubs, thus enabling one of the wheels to be mounted by a child only onto a hub having a corresponding geometrical configuration.
There is further provided in accordance with yet another preferred embodiment of the present invention a water toy including a source of pressurized water and a nozzle receiving the source of pressurized water and having plural nozzle outlets including at least one principal nozzle outlet and at least one secondary nozzle outlet which are interconnected with the source of pressurized water such that when the principal nozzle outlet is not blocked, water is expelled only from the at least one principal outlet and water is expelled from the at least one secondary nozzle outlet only when the at least one principal outlet is blocked.
Preferably, the at least one principal nozzle outlet is normally open and may be selectably manually blocked by a child, thereby causing water to expelled from the at least one secondary nozzle outlet. Alternatively, the at least one principal nozzle outlet normally blocked, whereby water is normally expelled from the at least one secondary outlet and the at least one principal nozzle outlet may be selectably opened by a child, thereby causing water to be expelled from the at least one principal outlet.
In accordance with a preferred embodiment of the present invention the source of pressurized water is a submerged pump. Additionally or alternatively, the source of pressurized water and the nozzle are mounted on a floatable platform.
Preferably, the at least one principal nozzle outlet is upwardly facing. Alternatively, the at least one principal nozzle outlet is downwardly facing.
In accordance with a preferred embodiment of the present invention the source of pressurized water is a submersible water pump coupled to a flexible conduit for providing a pressurized water flow therethrough and the nozzle is a child hand holdable water spray nozzle coupled to the flexible conduit for receiving the pressurized water flow and having a child hand operable water flow switch including a pair of oppositely directed squeezable button elements governing output of water through the nozzle from the pressurized water flow, the child hand operable water flow switch being electrically connected to an electrical water flow controller and to a source of electrical power via an electrical conductor conduit extending through the flexible conduit.
In accordance with a preferred embodiment of the present invention the water toy also includes at least first and second water inlets for receiving a flow of water from the nozzle, at least first and second generally vertical water conduits coupled to respective ones of the at least first and second water inlets for directing a gravity flow of water therethrough from the respective ones of the first and second water inlets and at least first and second generally horizontal water conduits coupled to respective ones of the at least first and second generally vertical water conduits for directing a gravity flow of water therethrough from the respective ones of the first and second water inlets and via respective ones of the at least first and second generally vertical water conduits, the at least first and second generally horizontal water conduits being arranged such that the gravity flow of water therethrough is in generally opposite directions.
Preferably, the water toy also includes a water receptacle arranged to receive a flow of water from the nozzle, a first water conduit coupled to the water receptacle, a first water turbine driven by a gravity flow of water from the water receptacle via the first water conduit and driving a visually sensible fanciful moving display, a second water conduit receiving water from the first water receptacle and a second water turbine driven by a gravity flow of water from the water receptacle via the second water conduit, the second water turbine being visible and child engageable and stoppable.
There is yet further provided in accordance with still another preferred embodiment of the present invention a water toy including a submersible water pump coupled to a flexible conduit for providing a pressurized water flow therethrough and a child hand holdable water spray nozzle coupled to the flexible conduit for receiving the pressurized water flow and having a child hand operable water flow switch including a pair of oppositely directed squeezable button elements governing output of water through the nozzle from the pressurized water flow, the child hand operable water flow switch being electrically connected to an electrical water flow controller and to a source of electrical power via an electrical conductor conduit extending through the flexible conduit.
There is even further provided in accordance with yet another preferred embodiment of the present invention a water toy including a submersible water pump coupled to a flexible conduit for providing a pressurized water flow therethrough, a child hand holdable water spray nozzle coupled to the first conduit for receiving the pressurized water flow and having a child hand operable water flow switch governing output of water through the nozzle from the pressurized water flow, the child hand operable water flow switch being electrically connected to an electrical water flow controller and to a source of electrical power and a flexible security element, extending through the flexible conduit and securely attached at ends thereof to the submersible water pump and the spray nozzle.
Preferably, the water toy also includes a water receptacle arranged to receive a flow of water, a first water conduit coupled to the water receptacle, a first water turbine driven by a gravity flow of water from the water receptacle via the first water conduit and driving a visually sensible fanciful moving display, a second water conduit receiving water from the first water receptacle and a second water turbine driven by a gravity flow of water from the water receptacle via the second water conduit, the second water turbine being visible and child engageable and stoppable.
In accordance with a preferred embodiment of the present invention the water toy also includes a water receptacle arranged to receive a flow of water, a first water conduit coupled to the water receptacle, a first water turbine driven by a gravity flow of water from the water receptacle via the first water conduit and driving a visually sensible fanciful moving display and a second water conduit receiving water from the first water receptacle and having a plurality of spray exit apertures therein.
Preferably, the water toy also includes a first water receptacle arranged to receive a flow of water, a first water conduit coupled to the first water receptacle, a first water turbine assembly driven by a gravity flow of water from the water receptacle via the first water conduit and driving a visually sensible fanciful moving display, a second water conduit receiving water from the first water receptacle, a second water turbine assembly driven by a gravity flow of water from the water receptacle via the second water conduit, the second water turbine assembly being visible and child engageable and stoppable, a second water receptacle arranged to receive a flow of water, a third water conduit coupled to the second water receptacle, a third water turbine assembly driven by a gravity flow of water from the second water receptacle via the first water conduit and driving a visually sensible fanciful moving display and a fourth water conduit receiving water from the first water receptacle and having a plurality of spray exit apertures therein.
In accordance with a preferred embodiment of the present invention the first and second water conduits together include at least first and second generally vertical water conduits for directing a gravity flow of water therethrough and at least first and second generally horizontal water conduits coupled to respective ones of the at least first and second generally vertical water conduits for directing a gravity flow of water therethrough, the at least first and second generally horizontal water conduits being arranged such that the gravity flow of water therethrough is in generally opposite directions. Additionally, the at least first and second generally horizontal water conduits are mutually parallel. Additionally or alternatively, the first and second generally horizontal water conduits are integrally formed with each other. Alternatively or additionally, the first and second generally horizontal water conduits are defined within a common outer generally horizontal conduit.
The present invention will be understood and appreciated more fully from the following detailed description, taken in conjunction with the drawings in which:
Reference is now made to
As seen in
Nozzle portion 120 preferably includes a nozzle housing 122, which is securely coupled to flexible conduit 116 and which defines a pumped pressurized spray output nozzle 124. It is a particular feature of the illustrated embodiment of the present invention that there is provided a spray control switch assembly, which can be operated by a very young child, even a child under the age of one year.
The spray control switch assembly is preferably realized in the illustrated embodiment by a pair of push buttons 126, which are mounted in nozzle housing 122, and which may be simultaneously grabbed by the hand of a young child. The spray control switch assembly preferably may be actuated by a young child who squeezes the push buttons 126 towards each other. According to a preferred embodiment of the present invention, squeezing of either or both of the push buttons 126 by even a very young child is sufficient to actuate a spray output from the nozzle 124.
Preferably the nozzle portion 120 and the nozzle housing 122 are configured to have a fanciful appearance, such as that of a face, in the illustrated embodiment.
The combination pumped flow and gravitational flow bath toy system 100 preferably also includes a multi-directional mutually-intersecting gravitational flow portion 130, which is adapted to receive water sprayed from nozzle 124, when actuated by even a very young child. The multi-directional mutually-intersecting gravitational flow portion 130 preferably is adapted to be mounted on a generally vertical surface, such as a side wall or end wall of a bathtub (not shown) and preferably is provided with suction cups 132 for this purpose.
In accordance with a preferred embodiment of the present invention, the multi-directional mutually-intersecting gravitational flow portion 130 preferably includes at least two water receiving receptacles 134 and 136, which are adapted to receive water from a water spray directed thereat from nozzle 124 by, even a very young child, operating push buttons 126 of nozzle portion 120.
Water receiving receptacle 134 is preferably coupled to a first generally vertical gravitational water flow conduit 138 which supplies water by gravitational flow to at least one first gravity flow water-driven turbine 140, which produces visually sensible rotational motion of a pair of rotating objects 142, here fancifully rendered as googly eyes, in mutually opposite rotational directions. The at least one first gravity flow water-driven turbine 140 preferably has an outlet 144. Water flowing by gravity from turbine 140 is directed via a generally horizontal conduit 146 which extends transversely to an outlet 148, which directs the water into driving engagement with a second gravity flow water-drive turbine 150, typically in the shape of a pinwheel, which rotates about an axis 152, which extends generally perpendicularly to generally horizontal conduit 146.
Water receiving receptacle 136 is preferably coupled to a second generally vertical gravitational water flow conduit 158 which supplies water by gravitational flow to a third gravity flow water-driven turbine 160, which produces visually sensible rotational motion of a rotating object 162, here fancifully rendered as a clock dial. Third gravity flow water-driven turbine 160 preferably has an outlet 164. Water flowing by gravity from water receiving receptacle 136 through conduit 158 is directed via a generally horizontal conduit 166 which extends transversely and parallel to generally horizontal conduit 146. Generally horizontal conduit 166 preferably is formed with a linear, generally horizontal array of spray outlets 170.
It is a particular feature of an embodiment of the invention that generally horizontal conduit 146 and generally horizontal conduit 166 are together constructed to have a common outer housing 172, which in fact defines two generally horizontal water conduits arranged to accommodate two separate gravitationally driven flows in mutually opposite generally horizontal directions. It is appreciated that the gravitationally driven transverse water flow from receptacle 134 through generally horizontal conduit 146 extends horizontally beyond the gravitationally driven vertical flow of water from receptacle 136 via generally vertical conduit 158 into generally horizontal conduit 166 and thus gives the appearance that the flows intersect, even though this is not the case.
Reference is now made to
As seen in
Disposed within nozzle housing 122 and extending through an aperture 210 in front housing portion 200 is a nozzle outlet element 212, which preferably includes a pressurized water inlet 214 and a pair of mounting apertures 216, which enable mounting of the nozzle outlet element 212 onto the forward nozzle housing portion 200 by engagement with bosses 220 and 221 in forward housing portion 200.
Forward nozzle housing portion 200 and rearward nozzle housing portion 202 are each formed with a pair of mutually oppositely located side cut outs, designated respectively by reference numerals 222 and 223, which accommodate nozzle flow control push buttons 224 and 226, which together with an electrical nozzle flow control switch 228 and other elements described hereinbelow, define a spray control switch assembly 230, which will now be described in detail with particularly reference to
Nozzle flow control push buttons 224 and 226 form part of corresponding pivotably mounted push button elements, respectively designated by reference numerals 231 and 232.
Pivotably mounted push button element 231 preferably includes a pivotable mounting collar portion 234, which is arranged for pivotable mounting about a boss 209 in the forward housing portion 200. Collar portion 234 is coupled to a curved portion 236 from which extends push button 224. Push button 224 includes an outer-facing child hand engageable outer surface 238 and an inner, generally concave surface which partially defines an enclosure and includes pair of inner-facing protrusions 240, which define a seat for a microswitch 241, which is coupled to a electrical cable 242.
A microswitch retaining and sealing element 244 retains and seals microswitch 241 within the enclosure partially defined by the inner, generally concave surface of push button 224 and is sealingly seated within an inner circumferential recess 246 therein. Microswitch 241 includes a microswitch actuation button 247 and is preferably a part TS-2037, commercially available Hongkong Leader Industrial Company of 126 Yee Kuk Street, Sham Shui Po, Kowloon.
As seen particularly in
Microswitch retaining and sealing element 244 preferably includes a electrical cable conduit portion 256, which sealingly accommodates electrical cable 242.
Pivotably mounted push button element 232 preferably includes a pivotable mounting collar portion 264, which is arranged for pivotable mounting about a second boss 209 in the forward housing portion 200. Collar portion 264 is coupled to a curved arm portion 266 from which extends push button 226. Push button 226 includes an outer-facing child hand engageable outer surface 268 and an inner, facing protrusion 270 which, depending on the relative orientations of push button elements 231 and 232, may pushingly engage web portion 250 mounted onto microswitch retaining and sealing element 244 for actuating microswitch actuation button 247, as will be described hereinbelow in detail.
Water inlet 214 of nozzle outlet element 212 is preferably fixedly coupled to a water supply conduit 271, which, together with electrical cable 242, extends through flexible conduit 116. It is a particular feature of an embodiment of the present invention that there is provided a security cable 272, preferably formed of NYLON of diameter 1.5 mm, which is fixedly coupled at a looped end 274 to forward housing portion engagement in engagement with a boss 276 in forward housing portion 200, such as by placement of looped end 274 over boss 276, and serves to prevent disconnection of the flexible conduit 116, as well as electrical cable 242 and water supply conduit 271, from the nozzle housing 122 (
Flexible conduit 116 is preferably mounted onto both forward and rearward nozzle housing portions 200 and 202 by means of upper and lower mutually threaded coupling elements 280 and 282, which retain an end of flexible conduit 116 under pressure from the threaded engagement therebetween. Lower coupling element 282 is retained within forward and rearward housing portions 200 and 202 by an inner-facing circumferential protrusion 284 formed at the interior of housing portions 200 and 202. Rotation of the lower coupling element 282 and thus of the flexible conduit 116 relative to forward and rearward nozzle housing portions 200 and 202 is prevented by engagement of an internal protrusion 286 of the forward housing portion 200 with a corresponding slot 288 formed in lower coupling element 282.
Reference is now made to
Reference is now made to
As seen in
As seen in
Flexible conduit 116 is mounted onto top pump housing portion 500 by means of upper and lower coupling elements 520 and 522, which are mounted in top pump housing portion 500, preferably by screws (not shown) inserted through apertures 523 into bosses (not shown) formed in the interior of top pump housing portion 500. Mounting of flexible conduit to top pump housing portion 500 is similar to the mounting of flexible conduit to nozzle portion 120 described hereinabove.
A looped end 526 of security cable 272 is fixedly secured to a protrusion 528 and serves to prevent disconnection of the flexible conduit 116, as well as electrical cable 242 and water supply conduit 271, from the top pump housing portion 500.
Pump portion 110 is rotatably attached to vacuum cup 112 by securing cap 530 and peg 532 which enable bottom pump housing portion 502 to rotatably engage protrusion 534 on vacuum cup 112.
Reference is now made to
As noted above in the description of
In accordance with a preferred embodiment of the present invention, the multi-directional mutually-intersecting gravitational flow portion 130, preferably includes at least two water receiving receptacles 134 and 136, which supply water via respective vertical conduits 138 and 158 to respective first and second gravity flow water-driven turbines 140 and 160, which are located inside respective turbine housing assemblies 600 and 602.
Turbine housing assembly 600 includes a rearward housing portion 604 and a forward housing portion 606, which is formed with a funnel inlet 608. Turbine housing assembly 602 includes a rearward housing portion 614 and a forward housing portion 616.
Both of forward housing portions 606 and 616 are preferably formed with fanciful visually sensible elements. Forward housing portion 606 is preferably formed with a pair of apertures 620 and 622 for accommodating turbine driven drive shafts, a forward face plate 624, here showing a pair of fanciful eye portions and a pair of rotatable elements 626 and 628 each representing an off-center eye pupil and having respective drive shafts 630 and 632, which extend through respective apertures 620 and 622 and are driven by respective turbine wheels 634 and 636, located within turbine housing assembly 600. Operation of the turbine in turbine housing assembly 600 provides a visually sensible googly eye appearance by virtue of rotation of rotatable elements 626 and 628.
Forward housing portion 616 is preferably formed with a single aperture 640 for accommodating a turbine driven drive shaft, a forward face plate 644, here showing a fanciful clock face, and a rotating object 162 (
Forward housing portion 606 of turbine housing assembly 600 preferably includes a relatively small forward-facing water outlet aperture 660 and a relatively large downward-facing water outlet aperture 662 which, as noted generally above with respect to
Forward housing portion 616 of turbine housing assembly 602 preferably includes a relatively small forward-facing water outlet aperture 670 and a forward portion of a relatively large downward-facing water outlet aperture 672 which, as noted generally above with respect to
It is a particular feature of an embodiment of the invention that generally horizontal conduit 146 and generally horizontal conduit 166 are together constructed to have a common outer housing, 172, which in fact defines two generally horizontal water conduits 146 and 166, arranged to accommodate two separate gravitationally driven flows in mutually opposite generally horizontal directions. Common outer housing 172 preferably is formed of forward and rearward housing portions 680 and 682, which together define a generally vertical water conduit from 684 from water outlet aperture 672 to generally horizontal conduit 166, generally parallel to horizontal conduit 146.
The horizontal array of parallel spray outlets 170 is defined by forward housing portion 680, while generally horizontal conduits 146 and 166 are jointly defined by forward housing portion 680 and rearward housing portion 682.
Reference is now made to
As seen in
Some water exits turbine housing assembly 600 via outlet aperture 660, as indicated by arrow 714 and most of the water flows under the force of gravity through outlet aperture 662, as indicated by arrow 716 and through generally horizontal conduit 146, as indicated by arrows 718 and out outlet 148, as indicated by arrow 720, where it falls by gravity into driving engagement with pinwheel turbine 150, as indicated by arrows 722, thereby driving pinwheel turbine 150 in a clockwise direction, as indicated by arrows 724.
Reference is now made to
As seen in
Most of the water does not drive turbine 160 but passes through generally vertical conduit 158, as indicated by arrows 760 and into generally horizontal conduit 166, as indicated by arrows 762 and exits therefrom from spray outlets 170 in a generally horizontal array of sprays, indicated by arrows 764.
Reference is now made to
As seen in
Some water exits turbine housing assembly 600 via outlet aperture 660, as indicated by arrow 814, and most of the water flows under the force of gravity through outlet aperture 662, as indicated by arrow 816, and through horizontal conduit 146, as indicated by arrows 818, and out outlet 148, as indicated by arrow 820, where it falls by gravity into driving engagement with pinwheel turbine 150, as indicated by arrow 822, thereby driving pinwheel turbine 150 in a clockwise direction, as indicated by arrow 824.
As further seen in
Most of the water does not drive turbine 160 but passes through generally vertical conduit 158, as indicated by arrows 860, and into generally horizontal conduit 166, as indicated by arrows 862, and exits therefrom from spray outlets 170 in a generally horizontal array of sprays, indicated by arrows 864.
Reference is now made to
As seen in
As seen clearly in
As seen clearly in
As also seen clearly in
As further seen clearly in
Reference is now made to
As seen in
Nozzle portion 1120 preferably includes a nozzle housing 1122, which is securely coupled to flexible conduit 1116 and which defines a pumped pressurized spray output nozzle 1124. It is a particular feature of the illustrated embodiment of the present invention that there is provided an electrical spray control switch assembly, which can be operated by a very young child, even a child under the age of one year.
The spray control switch assembly is preferably realized in the illustrated embodiment by a pair of push buttons 1126, which are mounted in nozzle housing 1122, and which may be simultaneously grabbed by the hand of a young child. The spray control switch assembly preferably may be actuated by a young child who squeezes the push buttons 1126 towards each other. According to a preferred embodiment of the present invention, squeezing of either or both of the push buttons 1126 by even a very young child is sufficient to actuate a spray output from the nozzle 1124.
Preferably the nozzle portion 1120 and the nozzle housing 1122 are configured to have a fanciful appearance, such as that of a flower, in the illustrated embodiment.
The combination pumped flow and gravitational flow bath toy system 1100 preferably also includes a water spray driven, side mounted toy assembly 1130 including a plurality of mutually interdigitated water spray drivable wheels, here preferably three wheels, 1132, 1134 and 1136, which can be removed and replaced by a young child onto a corresponding plurality of hubs, respectively designated by reference numerals 1142, 1144 and 1146.
It is a particular feature of the present invention that in the illustrated embodiment, each of the plurality of hubs 1142, 1144 and 1146 preferably has a different geometrical outer circumferential configuration, such as a square, a circle and a triangle. Accordingly, preferably each of the plurality of mutually interdigitated water spray drivable wheels 1132, 1134 and 1136 correspondingly has a different geometrical inner circumferential configuration corresponding to one of the geometrical outer circumferential configurations of the plurality of hubs, thus enabling one of the wheels 1132, 1134 and 1136 to be mounted by a child only onto a hub 1142, 1144 or 1146 having a corresponding geometrical configuration.
As seen in
Reference is now made to
As seen in
Disposed within nozzle housing 1122 and extending through an aperture formed by first nozzle housing portion 1200 and second nozzle housing portion 1202 in a top portion thereof is a nozzle outlet element 1212, which preferably includes a pressurized water inlet 1214 and a pair of mounting apertures (not shown), which enable mounting of the nozzle outlet element 1212 onto the first nozzle housing 1122 by engagement with bosses (not shown) in first nozzle housing portion 1200 and second nozzle housing portion 1202
First nozzle housing portion 1200 and second nozzle housing portion 1202 are each formed with a central slot, designated respectively by reference numerals 1222 and 1223, which accommodate nozzle flow control push buttons 1224 and 1226, which together with an electrical nozzle flow control switch 1228 and other elements described hereinbelow, define a spray control switch assembly 1230, which will now be described in detail with particularly reference to
Push button 1224 includes an outer-facing child hand engageable outer surface 1238 and an inner, generally concave surface which partially defines an enclosure and includes pair of inner-facing protrusions (not shown), which define a seat for a microswitch 1241, which is coupled to an electrical cable 1242.
A microswitch retaining and sealing element 1244 retains and seals microswitch 1241 within the enclosure partially defined by the inner, generally concave surface of push button 1224 and is sealingly seated within an inner circumferential recess (not shown) therein. Microswitch 1241 includes a microswitch actuation button 1247 and is preferably a part TS-2037, commercially available Hongkong Leader Industrial Company of 126 Yee Kuk Street, Sham Shui Po, Kowloon.
As seen particularly in
Microswitch retaining and sealing element 1244 preferably includes an electrical cable conduit portion 1256, which sealingly accommodates electrical cable 1242.
Push button 1226 includes an outer-facing child hand engageable outer surface 1268 and an inner, facing protrusion 1270 which, depending on the relative orientations of push button elements 1222 and 1223, may pushingly engage web portion 1250 mounted onto microswitch retaining and sealing element 1244 for actuating microswitch actuation button 1247, as will be described hereinbelow in detail.
Water inlet 1214 of nozzle outlet element 1212 is preferably fixedly coupled to a water supply conduit 1271, which, together with electrical cable 1242, extends through flexible conduit 1116. It is a particular feature of an embodiment of the present invention that there is provided a security cable 1272, preferably formed of NYLON of diameter 1.5 mm, which is fixedly coupled at a looped end 1274 to forward housing portion engagement in engagement with a boss 1276 in first housing portion 1200, such as by placement of looped end 1274 over boss 1276, and serves to prevent disconnection of the flexible conduit 1116, as well as electrical cable 1242 and water supply conduit 1271, from the nozzle housing 1122 and from the pump portion 1110 (
Flexible conduit 1116 is preferably mounted onto both first and second nozzle housing portions 1200 and 1202 by means of upper and lower mutually threaded coupling elements (not shown), which retain an end of flexible conduit 1116 under pressure from the threaded engagement therebetween. Lower coupling element is retained within first and second nozzle housing portions 1200 and 1202 by an inner-facing circumferential protrusion (not shown) formed at the interior of nozzle housing portions 1200 and 1202. Rotation of the lower coupling element and thus of the flexible conduit 1116 relative to first and second nozzle housing portions 1200 and 1202 is prevented by engagement of an internal protrusion (not shown) of the first housing portion 1200 with a corresponding slot (not shown) formed in lower coupling element (not shown).
Reference is now made to
Reference is now made to
As seen in
As seen in
Flexible conduit 1116 is mounted onto pump portion 1110 by means of upper and lower coupling elements (not shown), which are mounted in left and right pump housing portions 1500 and 1501, preferably by screws (not shown) inserted through apertures (not shown) into bosses (not shown) formed in the interior of left and right pump housing portions 1500 and 1501. Mounting of flexible conduit to left and right pump housing portions 1500 and 1501 is similar to the mounting of flexible conduit to nozzle portion 1120 described hereinabove.
A looped end 1526 of security cable 1272 is fixedly secured to a protrusion 1528 and serves to prevent disconnection of the flexible conduit 1116, as well as electrical cable 1242 and water supply conduit 1271, from left and right pump housing portions 1500 and 1501.
Pump portion 1110 is rotatably attached to vacuum cup (not shown) by securing cap (not shown) and peg (not shown) which enable bottom pump housing portion 1502 to rotatably engage protrusion (not shown) on vacuum cup (not shown).
Reference is now made to
Reference is now made to
As see in
It is a particular feature of this embodiment of the present invention that each of the hubs 1622, 1624 and 1626 preferably has a different overall geometrical configuration, here seen to be typically a square, a circle and a triangle.
In accordance with a preferred embodiment of the present invention, a plurality of mutually interdigitated water spray drivable wheels, here preferably three wheels, 1632, 1634 and 1636, which can be removed and replaced by a young child onto corresponding hubs, respectively designated by reference numerals 1622, 1624 and 1626, by matching the internal circumferential shape of each of the wheels 1632, 1634 and 1636 with the corresponding outer circumferential shape of corresponding hubs 1622, 1634 and 1636.
It is a particular feature of the present invention that in the illustrated embodiment, each of the plurality of hubs 1622, 1624 and 1626 preferably has a different geometrical outer circumferential configuration, such as a square, a circle and a triangle. Accordingly, preferably each of the plurality of mutually interdigitated water spray drivable wheels 1632, 1634 and 1636 correspondingly has a different geometrical inner circumferential configuration corresponding to one of the geometrical outer circumferential configurations of the plurality of hubs, thus enabling one of the wheels 1632, 1634 and 1636 to be mounted by a child only onto a hub 1622, 1624 or 1626 having a corresponding geometrical configuration.
As seen in
As seen in
As seen in
As seen in
As seen in
As seen in
As seen in
Reference is now made to
Reference is now made to
As seen in
When the water flow through aperture 1704 is fully or partly blocked, as seen in
Reference is now made to
As seen in
When the water flow through aperture 1724 is fully or partly blocked, as seen in
Reference is now made to
As seen in
As seen in
Reference is now made to
As seen in
A pressurized water conduit 1780 is coupled to a water pressure chamber 1782, which receives a pressurized flow of water via conduit 1780 from a pump 1784. Water pressure chamber 1782 is provided with a large central outlet aperture 1786, which is normally blocked by a pivotably mounted blocking element 1788, and with a plurality of relatively small peripheral outlet apertures 1790, through which water normally flows out of the nozzle element, as seen in
As seen in
It is appreciated that the structures of normally blocking a central outlet aperture or selectively blocking the central outlet aperture by a finger may be used interchangeably in all applicable embodiments of the invention.
It will be appreciated by persons skilled in the art that the present invention is not limited to what has been particularly shown and described hereinabove and includes various combinations and subcombinations of features which are described hereinabove with reference to the drawings, notwithstanding that the features are not shown in various combinations. Thus, for example, the embodiment of
This application is a divisional application of U.S. patent application Ser. No. 15/307,306, filed Oct. 27, 2016, entitled “WATER TOY”, which is a National Phase Application of International Patent Application No. PCT/IL2015/050935, filed Sep. 10, 2015, entitled “WATER TOY”, which claims priority of U.S. Provisional Patent Application Ser. No. 62/048,694, filed Sep. 10, 2014 and entitled “SPRAY STATION WATER TOY AND METHOD OF USE”, the disclosures of which are hereby incorporated by reference.
Number | Name | Date | Kind |
---|---|---|---|
2511323 | Briggs et al. | Jun 1950 | A |
2787863 | Laird | Apr 1957 | A |
4846751 | Kosoris | Jul 1989 | A |
4951329 | Shaw | Aug 1990 | A |
4963116 | Huber | Oct 1990 | A |
5049080 | Kriebel | Sep 1991 | A |
5093943 | Wei | Mar 1992 | A |
5114375 | Wellhausen | May 1992 | A |
5251345 | Pechner | Oct 1993 | A |
5385472 | Mullin | Jan 1995 | A |
6049919 | Roteman | Apr 2000 | A |
6370713 | Bosio | Apr 2002 | B2 |
6739979 | Tracy | May 2004 | B2 |
6782567 | Austin et al. | Aug 2004 | B1 |
7757963 | Kiolbassa et al. | Jul 2010 | B2 |
7941968 | Coyle | May 2011 | B1 |
7987533 | Phipps et al. | Aug 2011 | B2 |
8221184 | Nuttall et al. | Jul 2012 | B2 |
20030027648 | Hunter | Feb 2003 | A1 |
20050263613 | Beck et al. | Dec 2005 | A1 |
20060226262 | Chuang et al. | Oct 2006 | A1 |
20080227364 | Todokoro | Sep 2008 | A1 |
20090000022 | Phipps et al. | Jan 2009 | A1 |
20100273392 | Nuttall | Oct 2010 | A1 |
20120178336 | Nuttall et al. | Jul 2012 | A1 |
Number | Date | Country |
---|---|---|
2170133 | Jun 1994 | CN |
101041105 | Sep 2007 | CN |
202341889 | Jul 2012 | CN |
10 2007 010 964 | Sep 2008 | DE |
2301540 | Nov 1996 | GB |
361 | Jun 1887 | JP |
S43-19970 | Aug 1968 | JP |
S55-158799 | Nov 1980 | JP |
U11987200394 | Dec 1987 | JP |
H01297026 | Nov 1989 | JP |
H0284915 | Mar 1990 | JP |
H04277383 | Oct 1992 | JP |
3039377 | Jul 1997 | JP |
2008-55070 | Mar 2008 | JP |
2006223756 | Aug 2008 | JP |
2012-223307 | Nov 2012 | JP |
2014195940 | Dec 2014 | WO |
Entry |
---|
Waterway Pipe Builders, Lakeshore website, printed 2015. |
The International Search Report with Written Opinion for PCT/IL2015/050935, dated Feb. 25, 2016, pp. 1-17. |
An Office Action dated Jun. 7, 2017, which issued during the prosecution of U.S. Appl. No. 15/307,312. |
Partial European Search Report dated May 23, 2018, which issued during the prosecution of Applicant's European App No. 15840310.5. |
An English translation of an Office Action dated Aug. 7, 2018, which issued during the prosecution of Japanese Patent Application No. 2016-567618. |
An Office Action dated Oct. 26, 2018, which issued during the prosecution of U.S. Appl. No. 15/852,397. |
European Search Report dated Oct. 9, 2018 which issued during the prosecution of Applicant's European App No. 15839689.5. |
An Office Action together with the English translation dated Dec. 7, 2018 which issued during the prosecution of Chinese Patent Application No. 201580022183.X. |
Number | Date | Country | |
---|---|---|---|
20180117482 A1 | May 2018 | US |
Number | Date | Country | |
---|---|---|---|
62048694 | Sep 2014 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 15307306 | US | |
Child | 15852362 | US |