The present invention relates to steamhead for use in residential and commercial steam baths and more particularly, a steamhead including a steam dispensing chamber with an elongated steam outlet, designed to be mounted within the wall of the steam bath enclosure, which improves the distribution of steam throughout the steam bath enclosure and visually coordinates with a linear drain.
Steamheads for use in residential and commercial steam baths of various types are known in the art. Steam baths commonly include a steam generator which is located outside the steam bath enclosure. The steam generator provides steam to a steamhead located within an enclosure. In a residential steam bath, the enclosure is usually a shower stall. Commercial steam baths typically have a larger enclosure in the form of a steam room within which the steamhead is located. In both cases, the steamhead is attached to the end of a steam feed pipe connected to the outlet of the steam generator. The feed pipe extends through the wall of the steam bath enclosure such that steam can be delivered to the steamhead.
The purpose of the steamhead is to dispense the steam from the steam feed pipe into the steam bath enclosure. Often the steamhead has a steam outlet in the form of a small round port which directs the steam downwardly toward the steam bath floor such that a person in the steam bath enclosure is not burned by steam exiting steamhead. Because the steam outlet port is the same diameter as the feed pipe, in commercial steam baths the safety issue is particularly important because steam may exit the steam outlet under pressure.
Recently, it has become fashionable to create steam bath enclosures with linear floor drains instead of the round floor drains which are conventional. However, as far as we are aware there are no commercially available steamheads in which the visible portion of the steamhead coordinates with the appearance of a linear drain.
As far as we are aware there are no commercially available steamheads which are not visible to a person within the steam bath enclosure, except for the outer edge of the steam outlet, which terminates at the steam bath enclosure wall.
As far as we are aware there are no commercially available steamheads which are engineered to be mounted outside of the steam bath enclosure such that a person within the steam bath enclosure cannot accidentally come in contact with the steamhead when it is in use and get burned.
Moreover, as far as we are aware there are no commercially available steamheads which improve the distribution of the steam throughout the steam bath enclosure. More particularly, as far as we are aware there are no commercially available steamheads that allow steam to expand before it exits the steam outlet. As far as we are aware there are no commercially available steamheads which reduce the velocity of the steam before it enters the steam bath enclosure. As far as we are aware there are no commercially available steamheads which dispense steam over a wide area. As far as we are aware there are no commercially available steamheads which reduce the noise that steam creates as it leaves the feed pipe and enters the steam bath.
As far as we are aware there are no commercially available steamheads which include a light source. As far as we are aware there are no commercially available steamheads in which the light source indicates when the steam generator is operating. As far as we are aware there are no commercially available steamheads in which a light source emits anti-bacterial light.
It is therefore a prime object of the present invention to provide an elongated steamhead for a steam bath.
It is another object of the present invention to provide an elongated steamhead for a steam bath which improves the distribution of the steam throughout the steam bath enclosure.
It is another object of the present invention to provide an elongated steamhead for a steam bath having an elongated steam outlet.
It is another object of the present invention to provide an elongated steamhead for a steam bath having a dispensing chamber designed to be mounted outside of the steam bath enclosure.
It is another object of the present invention to provide an elongated steamhead for a steam bath having a steam outlet shaped to coordinate with the appearance of a linear drain.
It is another object of the present invention to provide an elongated steamhead for a steam bath that allows steam to expand before it exits the steam outlet.
It is another object of the present invention to provide an elongated steamhead for a steam bath that reduces the velocity of the steam as it exits the steam outlet.
It is another object of the present invention to provide an elongated steamhead for a steam bath that dispenses steam over a wide area.
It is another object of the present invention to provide an elongated steamhead for a steam bath that reduces the noise steam creates as it leaves the feed pipe and exits the steam outlet.
It is another object of the present invention to provide an elongated steamhead for a steam bath that includes a light source.
It is another object of the present invention to provide an elongated steamhead for a steam bath wherein the light source indicates when the steam generator is operational.
It is another object of the present invention to provide an elongated steamhead for a steam bath having a light source which emits anti-bacterial light.
The above noted objects are achieved by the present invention, which, in general, is directed to a steamhead for a steam bath including a dispensing chamber having a first wall. The chamber is isolated from the environment and includes a steam inlet connected to receive steam from a steam generator and an elongated steam outlet extending outwardly from the first chamber wall. The steam outlet has a steam flow capacity greater than the steam flow capacity of the steam inlet such that steam expands within the chamber before exiting the steam outlet.
The steamhead has at least one baffle, preferably multiple baffles, situated within in the dispensing chamber between the steam inlet and the steam outlet.
The chamber has a second wall. At least some of the baffles extend into the chamber from the interior surface of the first chamber wall and from the interior surface of a second chamber wall. The interior surface of the first chamber wall faces the interior surface of the second chamber wall. The baffles which extend from the interior surface of the first chamber wall are interleaved with the baffles which extend from the interior surface of the second chamber wall.
The chamber has a bottom wall. At least one of the baffles is inclined toward the bottom wall. The bottom wall has an interior surface which is inclined toward the steam outlet.
The chamber has a top wall. The steam inlet is situated in the top wall, proximate the center thereof.
The chamber has a side including a rubber gasket and an end cap which is situated adjacent the gasket. The end cap has an outwardly extending member adapted to attach the chamber to a structural member.
The steamhead may have one or more light sources associated with it. The light sources may indicate when the steam generator is operational or when the steamhead is hot. For example, a red light may indicate that the steamhead is hot and may emit steam whereas a blue or green light may indicate that the steamhead is not hot and will not emit steam. Alternatively, one or more light sources that emit light having an anti-bacterial effect may be employed.
In accordance with another aspect of the present invention, a steamhead is provided for a steam bath adapted to be mounted within the wall of a steam bath enclosure. The steamhead includes a dispensing chamber having a first wall. The chamber is isolated from the environment and includes a steam inlet connected to receive steam from a steam generator and an elongated steam outlet extending outwardly from the first chamber wall, through an opening in the shower bath enclosure wall. The outlet has a steam flow capacity greater than the steam flow capacity of the steam inlet such that the steam expands within the chamber before exiting the steam outlet through the steam bath enclosure wall.
At least one baffle, and preferably multiple baffles, is situated in the dispensing chamber between the steam inlet and the steam outlet. At least some of the baffles extend into the chamber from the interior surface of the first chamber wall. At least some of the baffles extend into the chamber from the interior surface of a second chamber wall. The first chamber wall faces the second chamber wall. The baffles which extend from the interior surface of first chamber wall are interleaved with the baffles which extend from the interior surface of the second chamber wall.
The chamber has a bottom wall. At least one of the baffles is inclined toward the bottom wall. The interior surface of the bottom wall is inclined toward the steam outlet.
The chamber has a top wall. The steam inlet is situated in the top wall, preferably proximate the center thereof.
The chamber has a side including a rubber gasket and an end cap situated adjacent the gasket. The end cap includes an outwardly extending member adapted to attach the steamhead to a structural member, such as a stud, situated within the steam bath enclosure wall.
The steam outlet is defined in part by an outer edge. The outer edge of the steam outlet is the only portion of the chamber visible from the interior of the steam bath enclosure, when the steamhead is situated within the steam bath enclosure wall. The outer edge of the steam outlet is preferably in the same or substantially the same plane as the interior surface of the steam bath enclosure wall.
The visible edge of the steam outlet is substantially rectangular to coordinate with the appearance of a linear drain.
The steamhead may have one or more light sources associated with it. The light sources may indicate when the steam generator is operational or when the steamhead is hot. For example, a red light may indicate that the steamhead is hot and may emit steam whereas a blue or green light may indicate that the steamhead is not hot and will not emit steam. Alternatively, one or more light sources that emit light having an anti-bacterial effect may be employed.
In accordance with another aspect of the present invention, a steamhead for a steam bath is provided. The steamhead has a dispensing chamber including a first baffle and a second baffle. The chamber is isolated from the environment and includes a steam inlet connected to receive steam from a steam generator and an elongated steam outlet extending outwardly from the front wall of the chamber. The chamber is formed of two parts. One of the chamber parts includes the front wall of the chamber, the top wall of the chamber, the first baffle and the upper portion of the steam outlet. The second chamber part includes the bottom wall of the chamber, the rear wall of the chamber, the second baffle and the lower portion of the steam outlet.
The chamber parts are formed of anodized aluminum and may be extruded.
The chamber has a side including an end cap adapted to be attached to each of the chamber parts and which functions to retain the chamber parts together.
The top wall of the chamber includes a downwardly extending member. The rear wall of the chamber has a channel adapted to receive the member. When the chamber parts are assembled, the member is received in the channel to seal the front wall of the chamber and the rear wall.
To these and to such other objects that may hereinafter appears, the present invention relates to an elongated steamhead for a steam bath as described in detail in the following specification and recited in the annexed claims, taken together with the accompanying drawings, in which like numerals refer to like parts and in which:
As depicted in the drawings, the present invention relates to a steamhead including an elongated dispensing chamber, generally designated A, designed for use in a residential or commercial steam bath and adapted to be installed within the wall of a steam bath enclosure, generally designated B.
Dispensing chamber A improves the distribution of the steam throughout the steam bath enclosure. It functions as a manifold, allowing steam to expand as it passes through the chamber. At the same time, the chamber functions to reduce the velocity of the steam.
The chamber includes a front wall 10, a rear wall 12, a top wall 14 and a bottom wall 16. Walls 10, 12, 14 and 16, along with the sides of the chamber, define an interior space which is isolated from the environment.
Top wall 14 has a centrally located round steam inlet 18. An internally threaded fitting 20 may be mounted on top wall 14 in alignment with steam inlet 18, as shown in the drawings. Fitting 20 is fabricated to receive the externally threaded end of a feed pipe or conduit (not shown) connected to receive steam from a steam generator (not shown). Alternatively, the rim of top wall 14 which defines steam inlet 18 may be internally threaded to receive the end of the steam generator feed pipe, thus eliminating the necessity for the fitting.
Chamber A also includes an elongated steam outlet 22 extending outwardly from front wall 10 for a distance equal to the thickness of the wall of steam bath enclosure B within which the steamhead will be located. Because of its elongated shape and dimensions, the steam outlet 22 allows the steam to exit the chamber over a wide area.
Steam outlet 22 is rectangular in shape and is defined in part by members 24 and 26 which extend outwardly from the plane of front wall 10 of the chamber and form the top and bottom of the steam outlet, respectively.
Steam outlet 22 has substantially larger cross-sectional area than steam inlet 18 and thus has a steam flow capacity substantially greater than the steam flow capacity of steam inlet 18. Accordingly, chamber A allows steam from the steam generator to expand before exiting steam outlet 22 while at the same time reducing the velocity of the steam.
The steamhead also has at least one, and preferably multiple, baffles 29 situated within chamber A, between steam inlet 18 and steam outlet 22. Baffles 29 define the path in which steam from steam inlet 18 must travel within chamber A to steam outlet 22. Baffles 29 reduce the noise made by the steam as it moves through the chamber.
As illustrated in
Baffles 29a are spaced from each other. Likewise, baffles 29b are spaced from each other. Baffles 29a are vertically offset from baffles 29b such that the baffles from the respective baffle sets 29a, 29b are interleaved with each other, creating a circuitous path through which steam must travel as it expands and moves through chamber A from steam inlet 18 to steam outlet 22.
Bottom wall 16 is inclined toward steam outlet 22 such that any water which accumulates at the bottom of chamber A will be caused by gravity to flow towards and exit through steam outlet 22.
In addition, the upper surface of at least one of the baffles 29, and preferably all of the baffles 29, is inclined toward bottom wall 16. Thus, gravity will cause any water which accumulates on the upper surfaces of the baffles 29 to eventually flow down to wall 18 and out of steam outlet 22.
Each of the sides of chamber A is sealed with a rubber gasket 36. Each gasket 36 is held in place by an end cap 38 which is situated adjacent to the gasket. Each end cap 38 has mounting portions 40 extending upwardly and downwardly beyond the top and bottom walls of chamber A, respectively. Each mounting portion 40 includes openings 42 adapted to receive screws for mounting the steamhead to a structural member.
As seen in
As seen in
As is best seen in
The chamber parts 46, 48 and end caps 38 (with gaskets 36) are assembled to form chamber A. The end caps 38 are attached to each of the chamber parts by screws and function to retain the chamber parts together.
Top wall 14 includes a downwardly extending member 50 situated at the rear the thereof. Rear wall 12 has a channel 52 shaped to securely to receive member 50 and to seal the front wall and the rear wall together, when the chamber parts are assembled.
The chamber parts are preferably composed of anodized aluminum.
One or more light sources 54 may be associated with the steamhead. The light sources may take the form of a single LED or a cluster of LEDs. Preferably, one light source is located at each end of chamber A to provide even light distribution through steam outlet 22, as seen in
An opening is created in each of the end caps 38, and in the aligned gasket 36, in order to accommodate a light source which extends into the interior of the distribution chamber. Each light source is connected to the control circuitry of the steam generator or to a temperature sensor associated with the dispensing chamber. Accordingly, the light source can be energized when the steam generator is operational or when the temperature of the dispensing chamber exceeds a predetermined level.
Multiple light sources 54 may be employed. The light sources may emit different color lights. For example, one light source may emit a red light to indicate that the steam generator is operating or that the temperature of the dispensing chamber is above a predetermined level and may emit steam. Another light source may emit a different color light (green or blue) indicating that the steam generator is not operational or that the steam generator is not operational or that the temperature of the dispensing chamber is below a predetermined level and will not emit steam.
Alternatively, the light sources may take the form of ultraviolet LEDs which generate light at a wavelength which kills bacteria.
Because of the high temperature within the dispensing chamber, high temperature ceramic packaged LEDs fabricated to withstand the steam temperatures could be used if properly sealed against moisture. However, to avoid that problem, the LEDs may be situated remotely from the dispensing chamber so they are not exposed to high temperature. In that instance, light emitted from the LEDs could be transferred to the interior of the chamber by means of light pipes which extend through the end caps of the chamber.
While only a single preferred embodiment of the present invention has been disclosed for purposes of illustration, it is obvious that many modifications and variations could be made thereto. It is intended to cover all of those modifications and variations which fall within the scope of the present invention, as defined by the following claims.
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