The present invention relates to a low water-consumption spray nozzle that has a housing and a washer that is received in the housing. The housing is equipped with a detachable device to connect the housing to a faucet or the like. The housing has a front portion that is provided with an orifice for discharge of water. The nozzle flash evaporates the water into a fine mist.
A primary object of the present invention is to present a spray nozzle that will perform a water saving function when water is discharged from the faucet.
A further object of the present invention is that the spray nozzle according to the present invention is extremely simple as regards the structural design.
A spray nozzle of the present invention is attached onto a faucet. The spray nozzle has a discharge opening defined therein. Water is permitted to flow into the spray nozzle. The water is rotated in a vortex inside the spray nozzle. The rotating water is discharged through the discharge opening. The rotating water is flash evaporated into a mist.
A preferred embodiment of the spray nozzle according to the present invention will be described below, reference being made to the accompanying drawings where:
The misting nozzle or spray nozzle 100 of the present invention is used to create a mist through a flash evaporation process with a minimum consumption of water. The nozzle 100 has a housing 1 that includes a front portion 2 (best seen in
As best seen in
The spray nozzle 100 also has a removable washer 11 disposed therein that is shown in
The washer 11 is provided with an annular projection 17 that faces towards the front portion 2 of the housing 1. The openings 12 are located inside the projection 17. The openings 12 are located immediately adjacent the projection 17.
When the washer 11 is properly mounted in the housing 1, as best seen in
When the washer 11 is properly mounted in the housing 1, the central sub-portion 16 is located opposite the conical inlet portion 9 of the orifice 7. The channels 15 and the inner side of the front portion 2 define a water passage that transports water from the openings 12 to the central sub-portion 16 wherein the vortex is created. More particularly, the central sub-portion 16 together with the conical inlet portion 9 define a vortex chamber for the water emanating from the passages defined by the channels 15 and the inner side of the front portion 2.
In operation, the spray nozzle 100 is first properly mounted on the faucet 104 or the like. Water 106 emerging from the faucet flows through the openings 12 so that the openings 12 restrict the flow of the water, i.e. the openings 12 reduce the outgoing water pressure from the faucet when the water enters the water passages that are defined by the channels 15 and the inner side of the front portion 2. A typical pressure of the water that is discharged from the faucet is about 2-3 bar. In the vortex chamber that is defined by the central sub-portion 16 and the inlet portion 9 there should be a water pressure of at least 1 bar but less than the original pressure such as 2-3 bar in order to make the spray nozzle function in a proper way. It is also possible that the pressure in the vortex chamber is about the same as the original pressure in the faucet i.e. about 2-3 bars. When the water 106 flows through the openings 12 and enters the water passages that are defined by the channels 15 and the inner side of the front portion 2 it is important that the sealing function between the groove 6 and the projections 17 is working properly in order to direct all water into the conical inlet portion 9.
In
In the embodiment disclosed above and in the accompanying drawings, the washer 11 is provided with a projection 17 and the inner side of the front portion 2 is provided with an annular groove 6 that cooperate to establish a sealing function. Within the scope of the present invention it is possible to have an alternative sealing arrangement, e.g. a loose sealing in the shape of an O-ring that is located between the washer and the inner side of the front portion 2.
In the embodiment disclosed above and in the accompanying drawings, the housing 1 is provided with an internal thread 4 to mount the housing 1 on a faucet or the like. It is possible to use alternative means, e.g. a bayonet coupling.
One important application of the spray nozzle 100 is in a cleaning station 110 that includes the faucet 104, a round shield 112 mounted on a wall 113 disposed above a sink container 114 connected to a drainage 116. The cleaning station 110 is for improved hygiene by atomizing the water 106 flowing through the spray nozzle 100. The user may insert the user's hands 130 under the faucet 104 inside the shield 112 to wash the hands. The water is atomized in the spray nozzle 100 so that a fine cone-shaped mist, fog or spray 108 (best seen in
Because the amount of water used is so small, the drainage 116 may be very weak and made of a bendable and flexible material. It is also possible to make the cleaning station 110 very small and use small and/or narrow spaces that are normally too small for a cleaning station. It is also possible to simply screw on the spray nozzle 100 to a conventional faucet in an already existing sink. It is also possible to use a plurality of nozzles 100 into order to spray and disinfect the entire body of the user. A suitable perfume with a pleasant smell may be added to the water 106 since the consumption is so small.
It is also possible to heat the water with an electric devise directly at the faucet and to use a multiple of spray nozzles together to form a shower.
It is also possible to connect the spray nozzle to a container containing water and air where the air is compressed by the means of a pump or the like to force the water to exit from the container through a tube passing filters and silver/copper ions, or the like, to purify the water and ending with a spray nozzle connected to the tube creating a mist for economical use of the purified water.
While the present invention has been described in accordance with preferred compositions and embodiments, it is to be understood that certain substitutions and alterations may be made thereto without departing from the spirit and scope of the following claims.
This is a US utility patent application that claims priority from U.S. provisional patent application Ser. No. 61/476,733, filed 18 Apr. 2011.
Number | Date | Country | |
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61476733 | Apr 2011 | US |