AN ASSEMBLY AND METHOD FOR NON-CHEMICAL TREATMENT OF

BATHING WATER

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] The present application claims priority on United States Provisional Application No 61/495,016 filed on June 9, 2011 and incorporated herein in its entirety.

TECHNICAL FIELD [0002] The present disclosure relates to the treatment of water. More particularly, but not exclusively, the present disclosure relates to systems of purifying waters used in spas, pools, baths or jetted (hot) tubs. Still more particularly, yet still not exclusively, the present disclosure relates to system an assembly and method for non-chemical treatment of bathing water. BACKGROUND

[0001] Bathing water used in swimming pools, spas, jetted (hot) tubs, public baths and the is treated so as to be purified by a variety of chemicals and bactericides which, in many cases, have an adverse affect on the users of such installations. This is also extremely counter-productive for clients of spas who are seeking water therapy also known as balneotherapy for various health reasons. Moreover, the various chemicals for treating the water leaves deposits within the water circuit causing damage and requiring replacement of parts.

[0003] Therefore, there is both a disadvantage to the chemical treatment of water with regard to the health of clients as well as to the installations themselves. Heated hot tubs are an ideal location for bacteria to thrive and spread even faster than a swimming pool. In a spa's limited water volume, even a small amount of bacteria can produce a large outbreak. Therefore, it is essential that a spa be kept free of bacteria and regularly treated and tested.

[0002] There thus remains a need for improved water treatment of bathing water in recreational facilities such bathing such as spas, hot springs, pools, jetted (hot) tubs, and baths.

OBJECTS [0003] It is an object of the present disclosure to provide a system a system for treating bathing water.

[0004] It is an object of the present disclosure to provide an assembly for being mounted to a conduit circuit for treating bathing water therein.

[0005] It is an object of the present disclosure to provide a circuit for treating bathing water and being placed in fluid communication with a reservoir containing the water.

[0006] It is an object of the present disclosure to provide a method for treating bathing water of a reservoir for purifying the water.

SUMMARY [0004] In accordance with an aspect of the disclosure, there is provided a system for treating bathing water comprising: a reservoir of untreated water.a conduit circuit in fluid communication with the reservoir at a first end thereof for receiving water therefrom via a reservoir outlet and in fluid communication with the reservoir at a second end thereof via reservoir inlet for returning water thereto; a water treatment assembly mounted to the conduit circuit between the first and second ends thereof, the water treatment assembly comprising: a filter for filtering the water; an ion generator for ionizing the water; a magnetizer for creating a magnetic flux within the water; and - an ozone generator for injecting ozone into the water, wherein submitting the untreated water to the water treatment assembly provides for purifying the water.

[0005] In accordance with an aspect of the present disclosure, there is provided an assembly for being mounted to a conduit circuit for treating bathing water therein, the conduit being in fluid communication with a reservoir at a first end thereof for receiving untreated water therefrom via a reservoir outlet and in fluid communication with the reservoir at a second end thereof via reservoir inlet for returning water thereto, the assembly comprising: a filter for filtering the water; an ion generator for ionizing the water; a magnetizer for creating a magnetic flux within the water; and an ozone generator for injecting ozone into the water, wherein submitting the untreated water to the water treatment assembly provides for purifying the water

[0006] In accordance with an aspect of the present disclosure, there is provided a circuit for treating bathing water and being placed in fluid communication with a reservoir containing the water for receiving water therefrom and returning water thereto, the circuit comprising: a filter for filtering the water; an ion generator for ionizing the water; a magnetizer for creating a magnetic flux within the water; and an ozone generator for generating ozone within the water, wherein passage of the untreated water through the circuit provides for purifying the water. [0007] In an embodiment, there is provided at least one pump in fluid communication with conduit circuit for circulating water from the reservoir outlet to the reservoir inlet.

[0008] In an embodiment, the filter is mounted within the conduit circuit. In an embodiment, the filter is mounted within the conduit circuit near the reservoir outlet. In an embodiment, the filter is selected from the group consisting of a cartridge filter, a sand filter, diatomaceous earth filter, a ceramic filters and any combination thereof. In an embodiment, there is provided a plurality of the filters.

[0009] In an embodiment, the ion generator comprises a support having a pair of electrodes for being mounted about a portion of the conduit circuit and powered by a power source so as to negatively charge the water molecules flowing within the portion of the conduit circuit. In an embodiment, there is provided a plurality of the ion generators

[0010] In an embodiment, the magnetized comprises a support having magnets for being mounted about a portion of the conduit circuit so as to provide a magnetic flux to the water following within the portion of the conduit circuit. In an embodiment, there is provided a plurality of the magnetizers.

[0011] In an embodiment, the ozone generator is in fluid communication with a portion of the conduit circuit so as to inject ozone therein. In an embodiment, the fluid communication between the ozone generator and the portion of the conduit circuit is provided by an additional conduit. In an embodiment, the ozone generator is selected from the group consisting of UV ozone generator and Corona Discharge ozone generator. In an embodiment, there is provided a plurality of the ozone generators.

[0012] In an embodiment, there is provided a controller in communication with the water treatment assembly. In an embodiment, there is provided a controller for being in communication with at least one of the filter, the ion generator, the magnetizer, the ozone generator.

[0013] In an embodiment, the systems, assemblies, circuits and methods herein provide for filtering particles from the water, killing micro-organisms within the water, and removing hard water salts, oils and lotions from the water.

[0014] In accordance with an aspect of the disclosure, there is provided a method for treating bathing water of a reservoir for purifying the water, the method comprising: (a) circulating the water from the reservoir into a conduit circuit; (b) filtering the water circulating within the conduit circuit; (d) ionizing the water circulating within the conduit circuit; (d) magnetizing the water circulating within the conduit circuit; and (e) injecting ozone into the water circulating within the conduit circuit; and (f) returning the purified water into the reservoir

[0015] In an embodiment, the steps (b), (c), (d) and (e) are performed in any order but after (a) and before (f). In an embodiment, the steps (b), (c), (d) and (e) are each selectively performed one or more times.

[0016] Without limitation to the broad and common definition thereof as would be understood by the skilled artisan within the context of the present disclosure, "bathing water" refers to the water in a variety of recreational installations used for individual or collective bathing such as spas, hot springs, pools, jetted (hot) tubs, and baths (e.g. Roman or Turkish bathhouses, Japanese Onsens etc.) and the like.

[0007] Other objects, advantages and features of the present disclosure will become more apparent upon reading of the following non-restrictive description of illustrative embodiments thereof, given by way of example only with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE FIGURES [0008] In the appended drawings:

[0009] Figure 1 is a schematic representation the system for treating bathing water including a conduit circuit for circulating water and an assembly for treating the water in accordance with a non-restrictive illustrative embodiment of the present disclosure; [0010] Figures 2A is a front view of the magnetizer in an open position in accordance with a non-restrictive illustrative embodiment of the present disclosure;

[0011] Figure 2B is a front view of the magnetizer in an open position in positioned about the conduit circuit of the accordance with a non-restrictive illustrative embodiment of the present disclosure

[0012] Figure 2C is a front view of the magnetizer in an open position in mounted on the conduit circuit; and

[0013] Figure 3 of a controller in communication with the assembly for treating water in accordance with a non-restrictive illustrative embodiment of the present disclosure.

DETAILED DESCRIPTION

[0014] Generally stated and in accordance with a non-limiting embodiment, there is provided a system for treating bathing water used in recreational facilities such as spas, hot springs, pools, jetted (hot) tubs, baths and the like. The system includes a reservoir, a circuit in fluid communication with the reservoir and an assembly of devices mounted to the circuit. The reservoir provides for holding water for bathing purposes and the circuit provides for the untreated or impure water to flow from the reservoir via a reservoir outlet into the circuit. The water is provided to circulate within the circuit so as to be treated by the assembly of devices and thus purified and to return in a purified form to the reservoir via a reservoir inlet. The assembly of devices provides for purifying the water so as to kill bacteria, hard water salts, oils, lotions and therefore render used water fit for bathing without the use of chemicals.

[0015] With reference to the appended drawings, non-restrictive illustrative embodiments will be described.

[0016] Figure 1 shows the system 10 for the treatment of bathing water. The system 10 includes a reservoir or basin 12 of bathing water. The water in basin 12 is untreated following its use. As such, the water (W1 ) contains various impurities common to such recreational facilities such as bacteria, oil, lotions, hard water salts and the like. The reservoir 12 is in fluid communication with a water circuit 14 comprising a plurality of conduits or conduit portions. An assembly 16 of devices is mounted to the circuit 14 for treating the water W1 so that it returns as purified water (W2) back into the reservoir 12.

[0017] Water circulates within the circuit 14 by the action of a pump 17 as is well known in the art, in order to flow as shown by the arrow F.

[0018] The water W1 from the reservoir 12 flows into a first conduit portion

18 via a reservoir outlet 20. Conduit portion 18 provides for a communication between the untreated water W1 12 and an initial filter 22 for removing larger particles. Filter 22 can be provided in a variety of different configurations for providing a fine physical barrier for removing impurities. For example, cartridge filters, sand filters, diatomaceous earth filters, ceramic filters and the like. As is known in the art, filters use a housing with a screen mounted thereto for obstructing particles while allowing water flow to continue. Of course, instead of using a screen, the filter 22 can use other methods such as adsorption or iron exchange and other like processes in order to remove particles.

[0019] Once the water is filtered through filter 22, it is submitted to via conduit portion 24 to an ion generator 26.

[0020] The ion generator comprises a strap 28 having a pair of electrodes 30 powered by a power source 32 and being mounted about an area A of the conduit portion 24. The ion generator 26 or negative ion generator is a device that uses high voltage to ionize or electrically charge ambient molecules. More particularly, the ion generator negatively charges the water molecules passing through area A, and in turn, kills the micro-organisms in proximity with these negatively charged water molecules. As such, the diameter of the conduit portion 24 should be of a convenient size so as to allow the water molecules therein to be sufficiently ionized thereby killing the various micro-organisms (bacteria, algae etc.) therein as a greater surface area is exposed to the action of the ion generator. [0021] In one non-limiting example, the ThomsenTec™ ion generator is used.

[0022] The water flows from area A into conduit portion 34 to be submitted to the action of a magnetizer 36.

[0023] The magnetizer 36 is mounted to area B of the conduit portion 34. As show in Figure 2A, 2B and 2C, the magnetizer 36 comprises a clamp 37 formed of a pair of concave clamping supports 38a and 38b, with a pair of inwardly inclined magnets 40 each. The clamp 37 is mounted to the conduit portion 34 (at area B) with the magnets 40 abutting the area B in a circumscribing fashion. The flat lateral side extensions 42 of the clamping supports 38a and 38b are fastened together via fasteners 44 such a straps or bolts mounted to ends 42 via apertures (not shown). Thus the magnets 40 surround the conduit portion 34 (at area B) thereby creating a magnetic flux therein

[0024] The magnetizer 36 provides for magnetic treatment of the water flowing within area B by providing a magnetic flux therein. More particularly, the magnetizer 36 creates a positive charge in the water dissolving hard water minerals. This removes ugly scale and protects equipment. As water molecules pass through the magnetic field two events occur. Namely, the magnetizer 36 polarizes or organizes molecules and gives water a net positive charge. The magnetizer 36 operates automatically, continuously and permanently using no external power source. Putting a positive charge into the water not only stops scale buildup but also dissolves pre-existing scale deposits. Furthermore, by magnetically organizing the water molecules, the range of the pH is reduced and so is the need for chemical usage.

[0025] As such, hard water salts are not only dissolved they are prevented from forming. Hard water is high in mineral content. Even though it is usually not a health hazard it poses a serious problem to the equipment of recreational bathing facility that handles the water. Hence, the magnetizer 36 prevents operational breakdowns that would require maintenance, repair or replacement.

[0026] [0027] In one non-limiting example, the magnetizer used is provided by Magnetizer ® Industrial Technologies, Inc. [0028] The water flows from area B into conduit portion 46 to be submitted to be submitted to the action of an ozone generator 48.

[0029] The ozone generator 48 provides for splitting apart molecules of oxygen into three oxygen atoms by intense UV light thereby or by corona discharge. When a newly freed oxygen atom collides with another oxygen molecule, it joins up forming ozone consisting of three oxygen atoms. Ozone is a strong oxidizer but since it does not last long, it needs to be continuously replenished by the ozone generator 48 to dissolve affected amounts in the treated water within conduit portion 46. Ozone is a much stronger oxidizer of contaminants than regular oxygen because the extra oxygen atom is loosely bound and therefore breaks loose when it comes into contact with organic material such as oils and lotions oxidizing and thereby destroying them in the process. The ozone not only destroys micro-organisms it also breaks down any harmful chemicals that may come into the untreated water and causes total dissolved solids to clump together for easier removal by an additional filter thereby providing cleaner water.

[0030] In one example, the ozone generator 46 is an Ultraviolet (UV) ozone generator and includes a lamp that emits UV light (e.g. at 185 nanometers). Air (ambient or otherwise) which splits 0 ₂ molecules in the gas, the resulting oxygen atoms O ^" seek stability and attach to other 0 ₂ molecules forming ozone (0 ₃ ). The ozone is then injected into the water stream where it inactivates contaminates (for example by rupturing their cell wall).

[0031] In another example, the ozone generator 46 is a Corona Discharge (CD) ozone generator. This device provides for passing dried (e.g. -80 degrees F), oxygen containing gas though an electrical filed which causes the split in the oxygen molecules as explained above. More specifically, an electrical charge is diffused over a dielectric surface creating the electrical field or "corona". Various frequency ranges can be used (e.g. low frequency: 50-1 OOHz; medium frequency 100-1000Hz; and high frequency 1000+Hz). Various cooling down methods (e.g. air, water etc.) are used to cool down the generator since it produces large amounts of heat. Once again the ozone is injected into the water. [0032] In one non-limiting example, the ozone generator used is provided by UltraPure™ Water Quality Inc.

[0033] As such, the ozone generator 46 is in fluid communication with the water within conduit portion 48 via a conduit 50 at area C. Conduit 50 provides for injecting ozone into the water. [0034] Thus, the untreated or impure bathing water W1 is filtered, then it is submitted to an ion generator, followed by being submitted to a magnetizer and finally to ozone generator thus purifying the water to produce the treated or pure water W1. Therefore, the method of the present disclosure comprises submitting the water W2 to a filtering process, an ionization process, a magnetizing process as well as an oxidizing process thereby removing particles, killing microorganisms, removing hard water salts as well as oil and lotions.

[0035] Thus the water W2 returns back to the reservoir via conduit portion 52 through reservoir inlet 54 in a clean state for use without any treatment by organic or chemical compositions. [0036] As shown in Figure 3, the system 10 a controller 60, such as a processor in communication (e.g. wireless communication) with a plurality of sensors 62. The sensors 62 can be positioned at various areas within the circuit 14 in order to determine or test the water balance and to evaluate the pH, the copper level within the treated and untreated water and other relevant information. Furthermore, the devices described above can also be linked to the controller 62 which will evaluate their fixity as is well-known in the art.

[0037] The various features described herein can be combined in a variety of ways within the context of the present description so as to provide still other embodiments. It is to be understood that the present description is not limited in its application to the details of construction and parts illustrated in the accompanying drawings and described hereinabove. The description is capable of other embodiments and of being practiced in various ways. It is also to be understood that the phraseology or terminology used herein is for the purpose of description and not limitation. Hence, although the present description has been provided hereinabove by way of non-restrictive illustrative embodiments thereof, it can be modified, without departing from the scope, spirit and nature of the disclosure and appended claims.