The present invention relates to a foam generating device for a high pressure water gun.
Devices are known having a main inlet suitable to be attached to a water gun to receive a stream of water at high pressure and a secondary lower inlet, suitable to be connected to a container of cleansing liquid. The high-pressure water, once inside the device, flows towards the outlet through a conduit. A vacuum generated by the Venturi effect in this conduit causes the aspiration of a certain amount of cleansing liquid from the container. The cleansing liquid aspirated is automatically mixed with the water and thus forms a foam which is sprayed by the device through the outlet.
The solutions on the market normally have an adjustment system which is manually operated to obtain a spray in the form of a fan-like jet or solid stream jet.
Other solutions, such as the one shown in the patent EP1852190, end with a nozzle which forms a fan-shaped jet and which can rotate by a predetermined angle about the outlet direction of the jet, to change its orientation.
The need is felt to integrate into a single device an adjustment system to vary the type of jet and a system which can rotate the orientation of the fan-like jet.
The purpose of the present invention is to make a foam generating device for a high-pressure water gun, which makes it possible to simply and inexpensively satisfy the requirement set out above.
According to the present invention a foam generating device for a high pressure water gun, as defined in claim 1, is provided.
The invention will now be described with reference to the accompanying drawings, which illustrate a non-limiting embodiment thereof, in which:
In the appended drawings, reference numeral 1 denotes foam generating device having a conduit 2, which extends along an axis 3 from an inlet mouth 4 to an outlet 5. The inlet mouth 4 is suitable to be connected in a watertight manner to a high pressure water gun (not shown), directly or via a hose.
With reference to
The inlet mouth 4, the mixing chamber 7 and lower inlet are made in a supporting body or valve body 14, which has a collar 15, defining a connection element for attaching the collar 13 of the container in a water-tight manner. The supporting body 14 is preferably made of metal and ends axially, towards the outlet 5, with a tubular protrusion 16, which preferably houses the Venturi tube 12.
The device 1 comprises a first movable body, defined by a sleeve 17, which is preferably made of plastic, coaxial to the conduit 2 and comprises a rear end portion 18 fitted around the tubular protrusion 16 so as not to be subject to the pressure of the fluid flowing in the conduit 2. The portion 18 is axially fixed and rotates about the axis 3 in relation to the supporting body 14 and has an outer surface 19 operable manually to rotate the sleeve 17. In particular, the sleeve 17 is kept in a fixed axial position by a tangential pin 20, which engages a circular slot 21 made in the supporting body 14.
Preferably, the Venturi tube 12 is defined by an insert, which is separate from the supporting body 14 and from the sleeve 17 and is axially inserted in the protrusion 16.
Advantageously, two sealing rings 22, 23 are arranged between the protrusion 16 and the inner surface of the sleeve 17 to ensure water-tightness. In an axial intermediate position between the rings 22 and 23, the outer surface of the protrusion 16 and the inner surface of the sleeve 17 together define a meatus 24, which is part of a passage 25 placing the external environment (at atmospheric pressure) in communication with a point of the conduit 2 immediately upstream of the Venturi tube, 12, in order to aerate the mixture formed of water and of the liquid aspirated from the container 13 and thus generate foam.
The device 1 further comprises a retention and positioning system 26 placed between the supporting body 14 and the portion 18 so as to define at least two reference positions of the sleeve 17, rotated by 90° relative to each other about the axis 3.
Preferably, the system 26 comprises an elastic element 27 and a stop element 28, which are carried by one of the portion 18 and the supporting body 14. The system 26 further comprises for each reference position, a corresponding retaining seat 29 made in the other of the portion 18 and the supporting body 14. The retaining seats 29 are arranged along a circumference about the axis 3.
The stop element 28 is movable and is pushed by the elastic element 27 towards the retaining seats 29. When one of said retaining seats 29 is engaged by the stop element 28, the sleeve 17 is angularly fixed in relation to the supporting body 14. When the torque acting on the outer surface 19 exceeds a certain threshold, defined by the load of the elastic element, the stop element 27 overcomes said load, moves rearwards and thus disengages the retaining seat 29. If the sleeve 17 continues to be turned, the stop element 28 will engage a retaining seat 29 which follows along the circumference and will thus stop the sleeve 17 in the corresponding reference position.
The stop element 28 is defined specifically by a ball and advantageously is movable in a direction parallel to the axis 3 in a guiding seat 31, which is made in the supporting body 14 and houses a coil spring, defining the elastic element 27. Preferably, there are four of said retaining seats 29 equally distanced from one another about the axis 3.
Still with reference to
The portion 34 supports two thin plates 39, which are preferably made of metal and are preferably parallel to each other and to the axis 3, when not deformed. In particular, the thin plates 39 are part of a fork 40 having an intermediate portion which is orthogonal to the axis 3 and is perforated to allow the transit of foam coming out of the fitting 38.
The fork 40 defines a nozzle which delimits the outlet 5 of the conduit 2 and is adjustable to vary the type of outgoing flow from a fan-like jet to a solid stream jet, in that the thin plates 39 are elastically flexible in a radial direction and, therefore, their front ends can be moved towards each other to vary the amplitude of the outlet 5.
The fork 40 is placed between two tabs 41 defining the front end of the portion 34. The tabs 41 are defined by axial projections which are elastically flexible in the radial direction to lean against the outer surface of the thin plates 39 and tighten the thin plates 39 against each other.
The device 1 further comprises a second movable body, defined by a sleeve 44, which is to coaxial to the conduit 2, coupled to the sleeve 17 in a fixed axial position and in a revolving manner and comprises an outer tubular portion 45 defining a manually operated knob to achieve the rotation of the sleeve 44 in relation to the sleeve 17. In particular, the sleeve 44 is made of plastic and comprises: an inner tubular portion 46 fitted onto the portion 35 and joined to the portion 45 by means of a plurality of radial spokes; and a plurality of posterior teeth 47, which are carried by the portion 45 and are snap-coupled in a circular groove 48 of the portion 18. As a result, the teeth 47 can slide in a circumferential direction, but are retained in a fixed axial position by a shoulder of the groove 48.
As shown in
When the front ends of the thin plates 39 are moved together by rotating the sleeve 44 (in a clockwise direction in
When the sleeve 17 is rotated in relation to the supporting body 14, the sleeve 44 rotates together with the sleeve 17, so that an adjustment of the orientation of the plane of the fan-shaped jet is obtained about the axis 3 in relation to the supporting body 14, without changing the relative position of the thin plates 39. In particular, the adjustment of the orientation of the fan-shaped jet, takes place between four reference positions at 90° relative to each other and defined by the retaining seats 29, as above.
From the above it is clear how the device 1 integrates the ability to vary the type of outgoing flow between a fan-shaped jet and a solid stream jet, thanks to the sleeve 44, and the ability to change the orientation of the fan-shaped jet, thanks to the sleeve 17.
Moreover, the device 1 is relatively simple and compact and has a relatively low number of components.
Even the assembly of the device 1 is relatively simple, consisting of fitting the sleeve 17 on the protrusion 16 after placing the elements of the system 26 between the supporting body 14 and said sleeve 17; blocking the latter by means of the pin 20; and lastly fitting the sleeve 44 onto the sleeve 17 as far as snapping the teeth 47 into the groove 48.
Moreover, the positioning defined by the system 26 is substantially free of annoying clearance, and is relatively simple to unlock.
From the above, lastly, it appears evident that modifications and variations may be made to the device 1 described with reference to the appended drawings while remaining within the sphere of protection of the present invention as defined in the appended claims.
In particular, the expedients provided for coupling the sleeves 44 and 17 may be different from those described above for example; and/or the shapes and/or the size of the various components may be different from those shown in the appended drawings.
Number | Date | Country | Kind |
---|---|---|---|
TO2014A0714 | Sep 2014 | IT | national |
The present application is a continuation of U.S. application Ser. No. 15/506,603, filed Feb. 24, 2017, which is a U.S. National Phase of International Patent Application PCT/IB2015/056981, filed on Sep. 11, 2015, which claims priority to Italian Application No. TO2014A000714, filed on Sep. 11, 2014, each of which is incorporated by reference as if expressly set forth in their respective entireties herein.
Number | Name | Date | Kind |
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7566013 | MacLean-Blevins | Jul 2009 | B2 |
20050093297 | Gilpatrick | May 2005 | A1 |
20050155972 | Ray | Jul 2005 | A1 |
Number | Date | Country |
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0 813 918 | Dec 1997 | EP |
1 852 190 | Nov 2007 | EP |
WO 2012025425 | Mar 2012 | WO |
Number | Date | Country | |
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20190105671 A1 | Apr 2019 | US |
Number | Date | Country | |
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Parent | 15506603 | US | |
Child | 16213522 | US |