The present invention relates to shower apparatus, systems and methods of using the same. Specifically, the shower apparatus of the present invention comprises embodiments of circular and/or arcuate water dispensing tubes for utilization in a shower. Further, embodiments include connection and leveling mechanisms and water flow diverters for use in the same. In addition, embodiments further include water-dispensing holes disposed within the circular and/or arcuate water dispensing tubes for specialized water distribution and coverage thereof of a user within a shower.
It is, of course, generally known to utilize a shower for cleaning an individual. Showers and shower basins, tubs, and the like are common features of residences, and many millions of people utilize a shower every day for maintaining good hygiene.
In a typical arrangement, a shower comprises a pipe for water distribution having a shower head disposed on an end thereof. The shower head may have numerous shapes, but typically a shower head includes a flat or relatively flat planar surface having a plurality of water distribution channels and perforations disposed therein. Water flowing through the pipe is expelled, under pressure, through the water distribution channels and perforations within the shower head, creating a steady rain-like effect of water at a generally constant angle, typically overhead of the user. Thus, an individual may utilize the shower for wetting and rinsing during a cleaning process.
An individual typically turns the water to the shower on, waits for the heated water to flow therethrough (unless cold water is desired or necessary), and enters the shower basin or tub under the stream of water that flows out of the shower head. He or she typically lathers and cleans his or herself with a soap or shampoo, and then proceeds to rinse him or herself off. Upon completion, the individual may turn off the water, dry him or herself, and exit the basin or tub. Water expelled from the shower head typically runs down a drain, with the soap, shampoo and residual dirt and other detritus that may have been cleaned off the individual's body.
Typically, showers are useful in that one may bathe relatively quickly and easily, and the shower is useful in conserving water due to the fact that less water is typically utilized during a shower than a typical bath when cleaning an individual. However, further water conservation is necessary in many areas of the world due to clean water shortages and the like. Thus a need exists for shower apparatus, systems and methods for providing decreased water consumption while maintaining the quickness and ease of cleaning inherent in a shower.
Shower heads are also known that may provide different water flow patterns to allow an individual to select which type of flow pattern is desired. For example, a shower head may have a lever that allows a user to select between a steady flow of water, a pulsed flow of water, smaller water droplets, larger water droplets, or the like.
As noted earlier, it is typical for a shower head to be disposed above a user who typically stands therebeneath for wetting and rinsing. Because of the typical size and distribution of perforations in a shower head, it is typical for a shower head to have a concentrated flow of water droplets out of the shower in a relatively narrow band. Thus, a user, to sufficiently soak his or her body, must constantly shift beneath the shower head to sufficiently wet or rinse his or her body. In addition, because the water tends to be concentrated in a relatively narrow band when ejecting from the shower head, to sufficiently wet the user's body, the user must constantly and simultaneously wet his or her head and hair at the same time. In many cases, users may not wish to wash their hair during a shower, and although shower caps may be useful to keep hair dry, it is often difficult and impractical to try to keep one's hair dry during a shower. A need, therefore, exists for providing shower apparatus, systems and methods for allowing a user's body to be wetted while allowing a user to keep his or her head dry.
Moreover, because the water tends to expel in a relatively narrow band from a shower head, portions of the user's body may be exposed for lengths of time to ambient air conditions. This may be uncomfortable for a user in that the ambient air may be relatively cool or even cold, especially compared to the relative warmth of water expelling from a shower head. Because water tends to be concentrated at the head region of the individual, the individual's head may be uncomfortably warm while portions of the user's body may be uncomfortably cold. In many cases, users may prefer to maintain the exact opposite in a shower: a relatively cool head region, allowing for better breathability and comfort, and relative warmth over the rest of the body, from shoulders to feet. A need, therefore, exists for providing shower apparatus, systems and methods for providing sufficient coverage of water over a user's entire body from shoulders to feet, to minimize cooling of the body by the ambient air. A need further exists for shower apparatus, systems and methods for providing sufficient coverage of water over a user's body while allowing a user's head region to stay relatively free of the water flow.
Because, as noted, typical shower heads tend to expel water in a relatively narrow band, users of different body sizes may have difficulty utilizing the stream of water for bathing purposes. A user having a relatively narrow body shape may have a better ability to wet and rinse him or herself when showering than a user having a relatively larger girth. Thus, a need exists for shower apparatus, systems and methods for allowing for adjustability in the water expulsion band and degree of coverage provided by a water stream within a shower.
Further, a shower head typically provides water expulsion from a relatively concentrated area, with the water distribution band fanning out as the water falls. Users may have relatively narrow shower basins or tubs, and water may spray out of the same, especially if a user opens a door or moves a curtain to enter the shower space. Moreover, water spraying and/or fanning outwardly may hit and wet shower walls, tub walls, shower doors, and the like causing significant wear and tear on these parts. A further need, therefore, exists for shower apparatus, systems and methods for controlling the water distribution band of water as it falls from a shower head, thereby keeping the water within the center of the desired shower or tub so that the water may properly flow down a drain, and keeping water from needlessly hitting shower or tub walls, doors and the like thereby causing long-term wear and tear. Still further, a need exists for shower apparatus, systems and methods for changing a water distribution band as water expels from the shower apparatus, depending on whether relatively narrow water distribution bands or relatively wide water distribution bands are desired.
Traditional shower heads tend to push water downwardly from a central location onto a user's body. The water is typically heated, and the pressure differential caused by both the movement of the water and the heat from the water typically causes air to push outwardly away from the user. This may cause discomfort as colder air may rush toward the user's body making the user cold, even as the warm water hits the user. Moreover, because the water typically expels from a relatively central location on a traditional shower head, while the user's body may be relatively cool, when it is desired to be warm, the user's head may be relatively warm, from the direct flow of water thereon, when it is desired to have the user's head remain relatively cool. A need, therefore, exists for a shower head that allows the user's body to maintain warmth, but further allows the user to maintain relatively cool temperatures on the user's head and/or neck region, thereby providing easier breathing and the like due to the cooler temperatures.
Relatedly, because the water in a traditional shower head is directed directly onto a user's head or neck, it is difficult to apply shampoo or conditioner, keep conditioner in hair for a time, or to shave the face thereof, without having to avoid the water spray from the shower head. A user may accomplish the same by physically moving the shower head away from his or her body completely, causing discomfort from relatively cold air temperature, or the user must step out of the shower stream, again causing discomfort from relatively cold air temperature. A further need, therefore, exists for shower apparatus, systems and methods for allowing a user to apply shampoo, conditioner, soap, shaving cream, or the like to the users head and/or neck region without diverting the stream of water from the user's body, or stepping out of the stream of water.
Typical showers may utilize a significant amount of water. It is common for a shower taker to utilize up to about 20 gallons of water, even in an eight-minute shower. Many traditional shower heads do not restrict the amount of water flowing therethrough; so much water may be utilized in a shower than is necessary. Some USA shower heads are restricted to 2.5 gallons per minute. An additional need, therefore, exists for shower apparatus, systems and methods for reducing water consumption lower than 2.5 gallons per minute without sacrificing comfort as a user takes a shower.
The present invention relates to shower apparatus, systems and methods of using the same. Specifically, the shower apparatus of the present invention comprises embodiments of circular and/or arcuate water dispensing tubes for utilization in a shower. Further, embodiments include connection and leveling mechanisms and water flow diverters for use in the same. In addition, embodiments further include water dispensing holes disposed within the circular and/or arcuate water dispensing tubes for specialized water distribution and coverage thereof of a user within a shower.
To this end, in an embodiment of the present invention, a shower apparatus is provided. The shower apparatus comprises a circular or arcuate tube interconnected to a water distribution pipe extending from a wall within a shower basin or tub. The circular or arcuate tube comprises a plurality of perforations through which water may flow.
In another embodiment of the present invention, a shower system is provided comprising a shower apparatus comprising a circular or arcuate tube interconnected to a water distribution pipe, and a traditional shower head interconnected to the water distribution pipe, and a diverter allowing various amounts of water to flow through the shower apparatus and the traditional shower head.
It is, therefore, an advantage and objective of the present invention to provide shower apparatus, systems and methods for controlling water distribution within a shower basin or tub from an overhead shower head at the shower head itself.
Moreover, it is an advantage and objective of the present invention to provide shower apparatus, systems and methods for allowing a user's body to be wetted while allowing a user to keep his or her head dry.
In addition, it is an advantage and objection of the present invention to provide shower apparatus, systems and methods for providing sufficient coverage of water over a user's body, from shoulders to feet, to minimize cooling of the body by the ambient air.
And, it is an advantage and objective of the present invention to provide shower apparatus, systems and methods for providing sufficient coverage of water over a user's body while allowing a user's head region to stay relatively free of the water flow for increased comfort and breathability.
It is a further advantage and objective of the present invention to provide shower apparatus, systems and methods for allowing for adjustability in the water expulsion band and degree of coverage provided by a water stream within a shower.
Moreover, it is an advantage and objective of the present invention to provide shower apparatus, systems and methods for controlling the water distribution band of water as it falls from a shower head, thereby keeping the water within the desired shower or tub so that the water may properly flow down a drain, and keeping water falling inwardly from needlessly hitting shower or tub walls, doors and the like thereby causing long-term wear and tear.
Still further, it is an advantage and objective of the present invention to provide shower apparatus, systems and methods for changing a water distribution band as water expels from the shower apparatus, depending on whether relatively narrow water distribution bands or relatively wide water distribution bands are desired.
Moreover, it is an advantage and objective of the present invention to provide shower apparatus, systems and methods that allows the user's body to maintain warmth, but further allows the user to maintain relatively cool temperatures on the user's head and/or neck region, thereby providing easier breathing and the like due to the cooler temperatures.
A further advantage and objective of the present invention is provided for shower apparatus, systems and methods for allowing a user to experience improved visual observation while applying shampoo, conditioner, soap, shaving cream, or the like to the users head and/or neck region without diverting the stream of water from the user's body, or stepping out of the stream of water.
An additional advantage and objective exists for the present invention for providing shower apparatus, systems and methods for reducing water consumption without sacrificing comfort as a user takes a shower.
Additional features and advantages of the present invention are described in, and will be apparent from, the detailed description of the presently preferred embodiments and from the drawings.
The drawing figures depict one or more implementations in accord with the present concepts, by way of example only, not by way of limitations. In the figures, like reference numerals refer to the same or similar elements.
The present invention relates to shower apparatus, systems and methods of using the same. Specifically, the shower apparatus of the present invention comprises embodiments of hoop, circular and/or arcuate water dispensing tubes for utilization in a shower. Further, embodiments include connection and leveling mechanisms and water flow diverters for use in the same. In addition, embodiments further include water dispensing holes disposed within the circular and/or arcuate water dispensing tubes for specialized water distribution and coverage thereof of a user within a shower.
While the present invention relates to water and water flow, any material may be utilized without altering the teachings of the present invention.
Now referring to the figures, wherein like numerals refer to like parts,
The water distribution pipe 12 may further extend from a diverter (not shown in
In use, water from the water distribution pipe 12 travels to the tubular shower head 10 and fills the same with water. Distribution holes or channels may be disposed in the tubular shower head 10 to expel water at various placed and intervals in the tubular shower head 10 to create a ring of water droplets that may fall onto the user 16. In an embodiment, the holes or channels may be disposed on an underside of the tubular shower head 10 to allow water to expel therefrom and fall directly downwardly by gravity. In an alternate embodiment, illustrated in
As shown in
In a preferred embodiment, the radius of the tubular shower head 10 may be large enough to allow the user 16 to stand thereunder to provide the desired distribution of water over his or her body. As shown in
Moreover, as illustrated in
The embodiments shown in
As will be described more fully below, the water distribution holes or channels that may be disposed in the tubular shower head 10 may preferably be disposed within the tubular shower head 10 to allow water to expel therefrom. In a preferred embodiment, the holes or channels may further be disposed directly downwardly so that, even when water pressure is decreased or removed, water may still drain from the tubular shower head 10. In an alternate embodiment, the holes or channels may be inwardly disposed on the tubular shower head 10 to direct water inwardly toward the user 16 standing thereunder. Additionally, some holes or channels may be disposed directly downwardly and some holes or channels may be disposed inwardly if the user wishes to have water from multiple angles.
Moreover, a plurality of sizes of holes or channels may be utilized to control the flow of water therefrom. For example, relatively small holes may be disposed if the user wishes for relatively small water droplet sizes. Moreover, relatively large holes may be disposed if the user wishes for relatively large water droplet sizes. A mixture of both relatively small holes and relatively large holes may be disposed if the user wishes to have a mixture of relatively small and relatively large water droplet sizes. In general, relatively small water droplet sizes may create a misting effect, which may be desired. However, it is apparent to those of ordinary skill in the art that smaller droplet sizes typically do not maintain heat compared to larger water droplet sizes, so a user may feel chilled if the water droplet sizes are too small.
Although the tubular shower head 10 and the tubular shower head 20 are illustrated as hoops, or circular, the tubular shower heads of the present invention may be any shape apparent to one of ordinary skill in the art to achieve the objectives and advantages provided herein. For example, the tubular shower heads described herein may be oval, square, rectangular, polygonal (such as hexagonal or octagonal, for example), or the like and the present invention should not be limited as described herein.
Moreover, the shower heads described herein as being “tubular” may have any shape in cross-section as long as the shapes utilized achieve the advantages and objectives described herein. For example, the shower heads may preferably be round in cross-section, but may also be oval, square, rectangular, polygonal (such as, for example, hexagonal or octagonal), or the like. Utilizing a tubular shower head having planar faces in cross-section may be useful for disposing the holes and/or channels therein, as planar face may be generally easier to dispose the holes therein than an arcuate face.
Now referring to
Alternatively, the shower arm 41 may be attached to a slide device (not shown) that may allow the tubular shower head 40 and the traditional shower head 46 to be moved vertically.
Alternately, the tubular shower head 40 may be attached to the slide device individually such that the tubular shower head 40 may independently move vertically. Additionally, the traditional shower head 46 may be attached to the slide device individually such that the traditional shower head 46 may independently move vertically.
The tubular shower head 40 may have a single pivoting hinge 43 disposed at or near the location of the connection between the tubular shower head 40 and the water distribution pipe 42. However, the present invention should not be limited to a single hinge, as other embodiments, especially those noted below, may have a plurality of hinges for additional degrees of freedom of movement of the tubular shower head 40, as described below in
A leveling mechanism such as a counterbalance 50 may be provided extending outwardly from the tubular shower head 40, and may be positioned beneath the diverter and/or traditional shower head 46. The counterbalance 50 may allow the tubular shower head 40 to maintain its position when utilized by a user, without the need of a support line on an opposite end thereof. The counterbalance 50 may be weighted to provide the tubular shower head 40 with neutrality when moving and positioning the same. The counterbalance 50 may have a weight disposed therein, or may be made from one or a plurality of pipes that may fill with water at the same time that the tubular shower head 40 fills with water, thereby maintaining neutrality of the tubular shower head 40 at the same time that the tubular shower head 40 fills with water.
The counterbalance 50 may further have a handle 52 and/or an easily grippable surface for a user to manipulate the same. Thus, the user may easily manipulate the position of the tubular shower head 40 by pivoting the same upwardly or downwardly via the pivoting hinge 43 by holding a moving the handle 52 on the counterbalance 50. The counterbalance 50 may be integrally formed with the tubular shower head 40 and may be molded therewith, or permanently adhered to the tubular shower head 40. Alternatively, the counterbalance 50 may be shaped to “snap on” to the tubular shower head 40, and may be removable therefrom if desired.
Alternatively, the rigid rod 54 may be encased in a vertical component 401 of a support tube 400 that may partially cover and attach around the tubular shower head 40 shown in
In an alternate embodiment of the present invention, illustrated in
The rigid rod 57 may be made from metal, plastic, fiberglass, or any other material apparent to one of ordinary skill in the art. Preferably, the rigid rod 57 may have a size to easily fit within the tubular shower head 40, but still allow water to flow therethrough from the water distribution pipe 42. The rigid rod 57 may take up space that would otherwise be filled with water, allowing for a lighter tubular shower head 40 when filled with water. In addition, by filling the space within the tubular shower head 40 with the rigid rod 57, water pressure may be effectively increased without the need for moving a larger amount of water therethrough.
The rigid rod 57 may be sealed at the openings 58a, 58b so that water does not leak therefrom. Specifically, the openings 58a, 58b may be sized to snugly fit the rigid rod 57, effectively sealing the openings 58a, 58b. Alternatively, a sealant or gasket may be used to ensure that water does not leak therefrom.
By effectively reducing the weight of the tubular shower head 40 when filled with water via the rigid rod 57, a smaller counterbalance may be utilized to balance the tubular shower head 40 when in use. This may allow for more control of the tubular shower head 40 and its level via hinge 43 when in use.
In a preferred embodiment seen in
Normally the weight of the tubular shower head 414 and any water therein would cause the tubular shower head 414 to rotate about the pivot point 415 and cause the tubular shower head 414 to decline below the horizontal plane and cause the extension 418 to rise above the horizontal plane. However, the placement of the rotating polygonal wedge 416 between the extension 418 and water distribution pipe 420 prevents the extension 418 from rising above the horizontal plane. The extension 418 may apply force on the rotating polygonal wedge 416 that may be negated by force from the water distribution pipe 420. This compression force may not compress the rotating polygonal wedge 416 because of its rigid nature. Thus, the leveling mechanism may prevent the tubular shower head 414 from declining below the horizontal plane effectively supporting the weight of the tubular shower head 414 and any water therein.
Alternatively, the extension 418 may extend above the water distribution pipe 420, wherein the extension 418 would normally rotate away from the water distribution pipe 420 due to the weight of the tubular shower head 414 and any water therein. In this embodiment, a screw, spring, or other tensile force leveling mechanism may be used between the extension 418 and the water distribution pipe 420. A rotating polygonal wedge 416 may be used, however, must be attached to the water distribution pipe 420 so that the rotating polygonal wedge 416 may still rotate. A minoring adjustment slot (not shown) may be necessary to attach the rotating polygonal wedge 416 to the water distribution pipe while allowing the extension 418 to progress through the adjustment slot 422. The extension 418 may apply force away from the rotating polygonal wedge 416 that may be negated by a pulling force from the water distribution pipe 420. This tension force may not pull the rotating polygonal wedge 416 apart because of its rigid nature. Thus, the leveling mechanism may prevent the tubular shower head 414 from declining below the horizontal plane effectively supporting the weight of the tubular shower head 414 and any water therein.
The tubular shower head 414 may be attached to a supply shower arm 424 that may be disposed within a wall (not shown). The shower supply arm 424 may be angled at 45° as shown in
As shown in
The leveling mechanism may have, instead of a polygonal wedge, a brace, a corkscrew, a support line, a screw, a ratchet, a spring, a counter weight, a gear, or other method known to one skilled in the art to adjust the tubular shower head 414 to horizontal level.
The tubular shower head 60 may be bifurcated, thereby forming an outer tube 74 and an inner tube 68 that may be slideably disposed within the outer tube 74.
As noted above, the inner tube 68 may have stoppers therein to restrict the ends of the inner tube 68 from moving outside of the outer tube 74. One or more support lines 76 may be provided to support the tubular shower head 60 when in the first position, the second position or any position in between. As illustrated, the support lines 76 may be connected to the ceiling within a shower, although the support line may be disposed in any location or position to aid in the support of the tubular shower head 60.
Thus, water may be expelled straight down, or nearly so, when the tubular shower head is disposed directly horizontally, and water may be expelled inwardly toward the center of the tubular shower head toward a user standing thereunder. However, the water may preferably expel through the holes and/or channels in such a manner as to fully wet a user thereof, without crossing each other and spraying too far in a direction, such as against the walls of the shower, or outside of where the user may be standing.
In a preferred embodiment, illustrated in
Thus, large streams of water may be expelled through the larger holes that are nearly straight down on the user's legs and feet. Medium streams of water may be expelled through the larger holes that are angled midrange toward the hips of the user, and the smallest streams of water may be expelled through the smallest holes directed to the most degree towards the user's shoulders and neck. Thus, different amounts of water may be directed to different parts of the user's body. In addition, size of the water streams, or water droplets, emanating from a shower head may carry heat in different ways. Smaller droplets may effectively lose heat faster than larger droplets. Thus, the temperature of the water streams may be different depending on the size of the water streams. The larger water streams may feel warmer than the smaller water streams. Thus, a user's body may be showered with different temperatures on different parts of the user's body.
Therefore, the holes themselves may be drilled or otherwise disposed directly into the tubular shower heads perpendicular to the tubular shower head wall. However, the holes may be disposed at angles off of zero degrees, with zero degrees being straight down, and any positive degree moving upwardly along the tubular wall inwardly toward the center of the tubular shower head. Specifically, as illustrated in
The tubular shower heads, as described herein, may be fixed to a water distribution pipe, a traditional shower head, the wall, or any other structure. In a preferred embodiment, the tubular shower heads of the present invention may be hingedly connected thereto, so that the horizontal leveling of the tubular shower heads may be adjusted and controlled by a user thereof. If hingedly connected, the tubular shower heads may require support structures that allow a tubular shower head to maintain its level after adjustment thereto. For example, as illustrated in
Referring now to
In a first alternate embodiment (“alt 1”), the tubular shower head 80 may be supported with a support line 81 (typically a rope, cord, rod, bar, or other structure) extending from the tubular shower head 80 and connected to the far wall in the shower. The support line 81 may be interconnected with a structure on the wall, either removably or permanently, such as a hook, a screw, a suction cup, shower curtain bar, or the like.
In a second alternate embodiment (“alt 2”), the tubular shower head 80 may be supported with a support line 83 extending from the tubular shower head 80 and connected to the ceiling of the shower. As noted above, the support line 83 may be interconnected with a structure on the ceiling, either removably or permanently, such as a hook, a screw, a suction cup or the like.
In a third alternate embodiment (“alt 3”), the tubular shower head 80 may be supported with a support line 85 extending from the tubular shower head 80 and connected to a traditional shower head 92 that may extend from a diverter 90. The support line may be interconnected with a structure on the traditional shower head 92, such as a hook, a screw, a suction cup or the like.
In a fourth alternate embodiment (“alt 4”), the tubular shower head 80 may be supported with a support line 87 extending from the tubular shower head 80 and connected to a rigid support bar 94 that may extend from the traditional shower head 92, the diverter 90, or another structure. The support line 87 may be interconnected with a structure on the rigid support bar 94, such as a hook, a screw, a suction cup or the like.
In a fifth alternate embodiment (“alt 5”), a plurality of support lines 89a, 89b may extend from the tubular shower head 80 to the water distribution pipe and traditional shower head support of the traditional shower head 92, to another pipe, as apparent to one of ordinary skill in the art.
The support lines, as described herein, may be adjustable and/or retractable, in that they may conform to the proper length, as needed. For example, the single pivot 84 may allow the tubular shower head 80 to be disposed in a horizontal position, or angled to direct the expulsion of water in particular direction, by pivoting the tubular shower head 80 at the pivot 84. The support lines may adjust to allow the movement of the tubular shower head 80, as desired by the user, but still maintain full support of the tubular shower head 80 no matter the position the user places the tubular shower head 80.
In an alternative embodiment, one or both of the ends 129 of the inner tube 128 may be tapered such that the ends 129 of the inner tube 128 do not fully engage the T-joint 137 within the outer tube 134. Thus water may have sufficient space within the outer tube 134 to flow into the outer tube 134 to expel freely from the holes and/or water distribution channels disposed therein.
As illustrated in
Referring now to
In an alternate embodiment of the present invention, two or more pivots may be disposed within the pipe leading from the diverter to the tubular shower head of the present invention to allow the tubular shower heads, as disclosed herein, to be angled and/or horizontally leveled, as desired. Specifically, in an alternate embodiment of the present invention, a tubular shower head 200 is illustrated in
The tubular shower head 200 may be supported by a support line or bar 201 that may be interconnected to a tradition shower head 203 or support pipe 205 of the same. In the embodiment illustrated in
Moreover, the tubular shower head 210 may include an extendible inner tube 218 that may extend outwardly from an outer tube 224, which may have ends 220, 222 that terminate prior to making a complete circle. The expandable inner tube 218 may be slideably disposed within the outer tube 224, having seals such as O-rings, septa or the like to ensure that water does not spray from the ends 220, 222 but traverse through both the tubular shower head 210 and the expandable inner tube 218. The expandable inner tube 218 may be pulled from the outer tube 224 that may be flexible to widen as the expandable inner tube 218 is pulled therefrom, thereby forming a larger diameter ring as the inner tube 218 is pulled therefrom. Stoppers disposed on or near ends of the inner tube 218 may restrict the movement of the ends of the inner tube 218 out of the outer tube 224 so that, once expanded to a maximum capacity, the inner tube 218 remains connected to the outer tube 224.
Holes and/or water distribution channels may be disposed within both the inner tube 218 and the outer 224 to expel water therefrom to form a ring of water droplets. When the inner tube 218 is fully disposed within the outer tube 224, only the holes and/or water distribution channels in the outer tube 224 may expel water therefrom. When the inner tube 218 is extended from the outer tube 224, the holes and/or water distribution channels in both the inner tube 218 and the outer tube 224 may expel water therefrom to a user standing therebeneath.
Now referring to
Referring now to
The tubular shower head 270 may include a first inner tube 278a and a second inner tube 278b extending from within a first outer tube 284a and a second outer tube 234b. First and second pivot hinges 286a, 286b may be disposed on opposite sides of first and second outer tubes 284a, 284b. The first and second pivot hinges 286a, 286b may connect to first and second extension tubes 280, 282 that may extend from the diverter 274 and allow water to flow therethrough and into tubular shower head 270. First and second diverter pivot hinges 294a, 294b may connect the extension tubes 280, 282 to the diverter 274.
Thus, the tubular shower head 270 may expand, allowing inner tubes 278a, 278b to extend outwardly from outer tubes 284a, 284b, thereby expanding the diameter of the ring of water droplets and, thus, the water droplet sprinkler zone for the user thereunder. Moreover, the pivot hinges, as described herein, may allow for the rotation of the tubular shower head 270 about 180 degrees to form a shower fountain, whereby the water ejects from the tubular shower head upwardly instead of downwardly, as illustrated in
Now referring to
In an alternate invention, the knob 310 may allow full water to flow out of either the traditional shower head 314 or the tubular shower head 316, but may further allow the user to adjust the water flow and, hence, the water pressure within the traditional shower head 314 or the tubular shower head 316, as desired by the user. This may allow a user to reduce or increase the water pressure for the particular shower head utilized, as illustrated in the graph in
As noted above with respect to
After 180 degrees, the water flow into the traditional shower head may be lessened, until the knob is turned to about 220 degrees, whereupon the water flowing through the traditional shower head is effectively eliminated. After about 220 degrees, the water flow into the tubular shower head of the present invention may be lessened until the knob reaches about 260 degrees, whereupon the water flow into the tubular shower head is effectively eliminated.
Thus, the user may find a combination of flow through both the traditional shower head and/or the tubular shower head as desired.
In an alternate embodiment of the present invention, illustrated in
Alternately, a two or more tubular shower heads of the present invention may be controlled from a single diverter, with or without a traditional shower head. For example, a plurality of tubular shower heads may extend from more than one exit openings in a diverter, where the diverter allows full control of the flow of water into one or more of the plurality of tubular shower heads of the present invention. For example, two tubular shower heads of the present invention may be stacked one atop another with necessary supports to allow water to flow from one, from the other, or from both at the same time.
In an alternate embodiment, an outer tube may extend from one exit opening from the diverter, and an inner tube may extend from a second exit opening from the diverter, the inner tube may be disposed within the outer tube. At a point on the outer tube opposite the position of the diverter, the inner tube may extend outwardly from the outer tube to form a second tubular shower head. The second tubular shower head may be disposed within the first tubular shower head formed by the outer tube to allow water to flow onto a user from both the outer and inner tubes. Alternatively, the second tubular shower head may extend away from the outer tube to form a second tubular shower head that may be disposed over a second user, with the outer tube forming a first tubular shower head for allowing water to flow onto a first user.
It should be noted that various changes and modifications to the presently preferred embodiments described herein will be apparent to those skilled in the art. Such changes and modifications may be made without departing from the spirit and scope of the present invention and without diminishing its attendant advantages.
This application claims priority to United States Provisional Patent Application filed under Ser. No. 61/668,228, entitled “Tubular Shower Apparatus, Systems and Methods,” filed Jul. 5, 2012, which is incorporated by reference herein in its entirety.
Number | Date | Country | |
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61668228 | Jul 2012 | US |