Patent Document

CROSS-REFERENCE TO RELATED APPLICATION 
       [0001]    This application is related to U.S. design patent application titled Spa Jet Design, attorney docket number 2699.13, filed evendate herewithin. This application is also related to U.S. patent application titled Spa Jet Interface, attorney docket number 2699.10, filed evendate herewithin. This application is also related to U.S. patent application titled Method of Forming Spa Jet Interface, attorney docket number 2699.11, filed evendate herewithin. 
     
    
     FIELD 
       [0002]    This invention relates to the field of water jets and more particularly to a system for a water jet that requires no adjusting. 
       BACKGROUND 
       [0003]    Many systems such as spas utilize jets to direct a flow of water. In general, such jets are often used for therapeutic reasons by directing the flow of water against a person&#39;s body. The water pressure and/or heat (if the water is heated) are believed to provide a therapeutic effect to aches and pains in the area at which the flow of water is directed. 
         [0004]    Jets are often integrated into spas, hot tubs, baths, etc. In such applications, the person places a part of their body that is experiencing pain or aching at the outflow of the jet(s), thereby alleviating some of the pain from the flow and/or heat of the water flow. 
         [0005]    In existing designs, the jets are typically adjustable to control both the volume of water flow as well as the direction of water flow. The direction has been adjustable in various ways using, for example, an eye-socket arrangement where an outflow tube of the jet is attached to the eye portion and can be bent into the direction desired. 
         [0006]    Because most spas, hot tubs, bathtubs, utilize a fixed speed motor or two-speed motor to drive a water pump, the resulting flow of water through the pump is not adjustable. Therefore, adjustment of the flow rate at the jet requires a valve mechanism at the jet, typically controlled by a knob that is part of the face plate of the jet. One reason for adjusting the flow rate at the jet is predicated by the positioning of the user. When there is some distance between the user and the jet, the user will be comfortable with a high pressure, but as the distance between the user and the jet decreases, the same pressure may become painful, especially when the user gets close enough to the jet to be abutting the outflow. Therefore, a user who wishes to rest against a jet will often adjust the jet flow to lower the pressure being emitted from that jet. One can imagine how difficult it is to properly adjust an array of jets, as is often provided in many modern spas and tubs. 
         [0007]    The valve mechanism used in many jets has the actual valve portion (e.g. an iris valve), an adjustment knob, and linkage between the actual valve portion and the knob. The adjustment knob is often the face of the jet, having knurls, indentations, ribs, etc., to enable gripping while turning to adjust the valve portion. Any device that is used with/in water is prone to build up and chemical change due to organic materials, suspended solids (e.g. sand), and harsh chemicals used to combat some of the organic materials. These act against any submerged control mechanism, working their way into the adjustment mechanism of the typical jet, making the adjustment mechanism difficult to turn or impossible to turn. Furthermore, because the jet is often held to the spa/tub wall by a rotating member (e.g. threaded nut), there are many examples where instead of adjusting the jet valve, the turning operation often results in turning the entire jet body, resulting in eventual loosening of the nut and leakage. 
         [0008]    Spas, hot tubs, and bathtubs often have many jets, numbering from a few to several dozen, making the reliability of the overall spas, hot tubs, or bathtubs dependent upon the reliability of many individual jets. When one or two jets fail or become difficult to use, the quality reputation of the manufacturer often suffers. 
         [0009]    Often, due to biological material build-up and water treatment chemicals, etc., the eye-socket directional adjustment often becomes difficult or impossible to change. Furthermore, with the introduction of arrays of jets, the ability to individually aim each jet becomes less important and the user can easily find a position where the jets are properly aimed without changing the direction of flow of the jets. 
         [0010]    What is needed is a jet system that is comfortable when used in close proximity yet does not require adjustment. 
       SUMMARY 
       [0011]    In one embodiment, a jet is disclosed including a jet base portion and a face portion with an orifice extending through the jet base portion and through the face portion at an exit. A plurality of side-directed fluid orifices is included. Each of the side-directed fluid orifices is in fluid communications with the orifice. 
         [0012]    In another embodiment, a method of method of directing water pressure is disclosed including providing the jet as describe above and connecting the input port of the jet to the source of water pressure then installing the jet into a wall of a spa/tub and connecting the jet face to the jet body. When the exit of the jet is not impeded, the water flows substantially from the exit of the jet and when the exit of the jet is impeded (or partially impeded), the water flow is redirected to the side-directed fluid orifices. 
         [0013]    In another embodiment, a jet for spa/tub is disclosed including a jet body and a jet base portion. The jet base portion is connectable to the jet body. The jet base portion has a face portion that outwardly extends from the jet base portion. An orifice extends through the jet base portion and through the face portion at an exit opening. There is a plurality of side-directed fluid orifices. Each of the side-directed fluid orifices is in fluid communications with the orifice such that when the exit is blocked, fluid flows through the side-directed fluid orifices. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0014]    The invention can be best understood by those having ordinary skill in the art by reference to the following detailed description when considered in conjunction with the accompanying drawings in which: 
           [0015]      FIG. 1  illustrates a front perspective view of a jet. 
           [0016]      FIG. 2  illustrates a rear perspective view of the jet. 
           [0017]      FIG. 3  illustrates a cross sectional view of the jet showing water/air flow when unobstructed. 
           [0018]      FIG. 4  illustrates a cross sectional view of the jet showing water/air flow when obstructed. 
       
    
    
     DETAILED DESCRIPTION 
       [0019]    Reference will now be made in detail to the presently preferred embodiments of the invention, examples of which are illustrated in the accompanying drawings. Throughout the following detailed description, the same reference numerals refer to the same elements in all figures. 
         [0020]    Throughout this description, for brevity purposes, the term “spa jet” will refer to any type of jet for any type of usage, including, but not limited to, spa jets, tub jets, hot tub jets, pool jets, etc. Throughout this description, as an example, water and/or air flow through such jets. The term “water” refers to a liquid that comprises water (H 2 O) and optionally various other dissolved or suspended chemicals and minerals including, but not limited to, pool chemicals, salts, biological materials, dissolved oxygen, suspended sand/dirt particles, etc. The term “air” refers to a gas of which our atmosphere comprises having amounts of various gases, suspended particles, water vapor, etc. 
         [0021]    Referring to  FIG. 1 , a front perspective view of a jet face  80  is shown. The jet  80  has a face  82  and an exit orifice  86  through which water from the rear of the jet  80  exits. A plurality of side-directed exits  89  is visible. As will be discussed, the side-directed exits  89  provide escapes for water pressure should the exit orifice  86  become impeded. 
         [0022]    In some embodiments, the fluid channel  84  (see  FIG. 2 ) increases in diameter towards the face portion  82  and exit orifice  86 , although in other embodiments, the fluid channel  84  has a substantially constant diameter. In some embodiments, though not required, the exit orifice  86  has a plurality of directing ribs  91  in the area of the fluid channel  84  where the diameter of the fluid channel  84  increases (towards the exit orifice  86  in the face portion  82 ). The jet base portion  85  is partially visible, better views of which follow. 
         [0023]    Referring to  FIG. 2 , a rear perspective view of the jet  80  is shown with a base portion  85  that interfaces to a jet body  60  as shown in  FIGS. 3 and 4 . In this example, the back wall  87  is substantially planar to abut a substantially planar spa wall  40  (see  FIGS. 3 and 4 ), though curved or angled, or any surface back wall  87  is anticipated. The fluid channel  84  is shown centrally located through an axis of the jet  80 , though any location is anticipated. Water is directed through the fluid channel  84  towards the exit orifice  86  in the face  82 . 
         [0024]    Referring to  FIGS. 3 and 4 , cross sectional views of the jet  80  showing water/air flow when unobstructed ( FIG. 3 ) and when flow is obstructed ( FIG. 4 ) are shown. Although, in this example, the spa jet  60 / 80  is shown interfaced to the spa wall  40  using o-ring seals  66 / 68 , this is an exemplary method of mounting and any spa wall interface is anticipated. The interface that is shown has a double o-ring seal  66 / 68  and requires little or no pressure from the spa jet  80  against the spa body  60  to retain this seal because the o-rings  66 / 68  seal between o-ring seats and the inner wall  44  of the formed orifice. The spa jet  60 / 80  has a retainment mechanism (e.g. a snap, wedge, press-fit, threads, screw, snap, etc.) that retains the spa jet  80  against/coupled-to the spa body  60 . In this example, the jet base  85  threads into the jet body  60 . 
         [0025]    In the exemplary installation of  FIG. 1 , the spa jet body  60  has a substantially tubular insertion area having at least one o-ring seat (two are shown). The outer diameter of the tubular insertion area is close to, but less than the inner diameter of the inner wall  44  of the formed orifice, allowing free insertion of the tubular insertion area into the inner wall  44  of the formed orifice (before addition of o-rings  66 / 68 ). 
         [0026]    As with most spa jets, the spa jet  60 / 80  has a water inlet  70  and air inlet  72 , though in some embodiments, only a water inlet  70  or only an air inlet  72  is present. 
         [0027]    The jet  60 / 80  is installed by seating the o-rings  66 / 68  into the at least one o-ring seats, and pushing the tubular insertion area into the formed orifice. The o-rings  66 / 68  compress and apply a sealing force between the o-ring seats and the smooth inner wall  44  of the formed opening. The jet  60 / 80  is held in place by the base  85  of the jet  80  being inserted into the tubular insertion area and locked in place by any retainment mechanism known. As shown, the base  85  of the jet  80  press fits into the tubular insertion area of the jet body  60 . 
         [0028]    The jet  80  is a self-adjusting jet. The high-pressure water and/or air flows through the fluid channel  84  in the jet body  85  towards the fluid exit  86  in the face  82  of the jet  80 . The fluid channel  84  optionally increases in diameter towards the fluid exit  86 , providing an expansion of the outward flow. The fluid channel  84  is fluidly interfaced at angles (e.g. right angles) to a plurality of side-directed fluid orifice  89  preferably situated between the face  82  and the inner wall  87  of the jet  80 . Normally, as fluid flows (e.g. spa water) unimpeded through the fluid channel  84 , little fluid escapes through the side-directed fluid orifices  89  and most of the fluid is directed out the fluid exit  86 . When the fluid exit  86  is impeded or partially impeded, the fluid pressure is redirected and flows through the side-directed fluid orifices  89 , thereby reducing direct pressure against whatever is blocking the fluid exit  86  and, therefore, eliminating the need to have a pressure adjustment on each oft the jets  60 / 80 . By this mechanism, the jets  60 / 80  are “self-adjusting” to accommodate a user  90  laying against the jet  60 / 80 . Again, the jets  60 / 80  function with any other spa-jet interface and seal including, but not limited to the exemplary o-ring interfaces, washer interfaces, shoulder washer interfaces, caulked interfaces, combinations of such, etc. 
         [0029]    As shown in  FIG. 3 , there is no restriction of the flow of water through the fluid exit  86  and, hence, most of the water flow is directed outwardly (e.g. towards a user). In  FIG. 4 , the fluid exit  86  is blocked or at least partially blocked, for example, by a person  90  resting against the spa jet face  82 . If not for the side exits  89 , the water pressure would continue to push through the fluid exit  86  and provide discomfort to the person  90 , possibly causing bodily harm to the person  90 . When the fluid exit  86  is blocked or impeded, some or all of the fluid/water is directed out of the plurality of side exits  89  and the pressure from the exit  86  is minimized. 
         [0030]    Equivalent elements can be substituted for the ones set forth above such that they perform in substantially the same manner in substantially the same way for achieving substantially the same result. 
         [0031]    It is believed that the system and method as described and many of its attendant advantages will be understood by the foregoing description. It is also believed that it will be apparent that various changes may be made in the form, construction and arrangement of the components thereof without departing from the scope and spirit of the invention or without sacrificing all of its material advantages. The form herein before described being merely exemplary and explanatory embodiment thereof. It is the intention of the following claims to encompass and include such changes.

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