The present disclosure relates to a lavatory system. More particularly, the present disclosure relates to a lavatory system that combines one or more hand washing stations with one or more hand drying stations.
Lavatory systems are often used in a public, commercial or industrial, residential or non-residential environments such as a restroom. Such lavatory systems may include one or more hand washing stations having a countertop, a backsplash, a wash basin (with drains) and a faucet configured to be coupled to a plumbing system for providing water (or other cleansing solution) to a user. After a user finishes washing his or her hands at the hand washing station, the user often uses hand drying station to remove any excess water from his or her hands. Examples of hand drying stations include towel dispensers and hand dryers (e.g., electric hand dryers, etc.). The hand drying stations are typically separate from the hand washing stations and require the user to move away from the hand washing station in order to access the hand drying station. Requiring a user to move away from the hand washing station before drying his or her hands may increase the likelihood that water will drip onto the floor. Even when hand drying stations are provided at the washing stations, water is likely to drip and/or be blown onto the user, an adjacent washing stations and/or the floor due to the transition to and the design of the hand drying system.
One exemplary embodiment of the present invention relates to a lavatory system including a countertop and a first hand washing station. The first hand washing station includes a basin supported by the countertop and a faucet supported by the countertop. The lavatory system also includes a hand dryer, for example an electric hand dryer, including a housing supported by the countertop. The housing defines a cavity in which a user's hands are inserted during drying, and a motor configured to generate blown air which is supplied to the cavity. The housing is located such that the user's hands may be inserted into the cavity without the user leaving the first hand washing station.
Another exemplary embodiment of the present invention relates to a lavatory system including a basin, a faucet adjacent the basin and a hand dryer. The hand dryer includes a housing coupled to the basin, and the housing defines a cavity in which a user's hands are inserted during drying. The hand dryer also includes a first air outlet positioned within the cavity, a second air outlet positioned within the cavity and a device configured to generate moving air which is supplied to the first air outlet and the second air outlet. The first air outlet is positioned to direct moving air downward and rearward towards the user's hands within the cavity, and the second air outlet is positioned within the cavity to direct moving air upward and rearward towards the user's hands in the cavity.
Another exemplary embodiment of the present invention relates to a hand dryer for use with a lavatory system having a basin and a countertop. The hand dryer includes a housing configured to be supported by the countertop, and the housing that defines a cavity in which a user's hands are inserted during drying. The hand dryer also includes a motor configured to generate blow air which is supplied to the cavity.
Another exemplary embodiment of the present invention relates to a lavatory system comprising a first hand washing station including a first countertop, a first basin, a first faucet and a first electric hand dryer located adjacent the first basin and the first faucet so that the user of the first washing station may use the first faucet and the first electric hand dryer without leaving the first washing station. The first electric hand dryer includes a housing defining a cavity in which a user's hands are inserted. The housing includes a reservoir configured to collect water as it is blown off the hands of a user. The reservoir is in fluid communication with a main drain line that services the basin. According to an exemplary embodiment, the reservoir is in fluid communication with the main drain line by having a drain that is coupled to the main drain line. According to another exemplary embodiment, the reservoir is in fluid communication with the main drain line by having a contour that directs water into the basin.
Another exemplary embodiment of the present invention relates to a lavatory system comprising a hand washing station including a basin having a drain configured to be coupled to a main drain line and an electric hand dryer located adjacent the basin so that the user of the washing station may use the electric hand dryer without leaving the first washing station. The electric hand dryer includes a housing defining a cavity in which a user's hands are inserted. The housing includes a reservoir having a drain configured to collect water as it is blown off the hands of a user. The drain of the reservoir is in fluid communication with the main drain line. The hand dryer includes a device configured to accelerate the passage of water down the drain of the reservoir. According to an exemplary embodiment, a motor of the hand dryer is coupled to a conduit that is in fluid communication with the drain of the reservoir and the main drain line in a manner that creates a pressure differential within the conduit that urges water down the drain of the reservoir. According to another exemplary embodiment, one or more fittings are added to the conduit to form a venturi nozzle that creates a pressure differential within the conduit that urges water down the drain of the reservoir.
Another exemplary embodiment of the present invention relates to a lavatory system comprising a hand washing station including a basin, a countertop and a electric hand dryer located adjacent the basin so that the user of the washing station may use the electric hand dryer without leaving the first washing station. The countertop supports that hand dryer and includes an aperture configured to receive the hand dryer so that the hand dryer can be installed from above the countertop.
Another exemplary embodiment of the present invention relates to a lavatory system comprising a hand washing station including a basin and a electric hand dryer located adjacent the basin so that the user of the washing station may use the electric hand dryer without leaving the first washing station. The electric hand dryer includes a housing defining a cavity in which a user's hands are inserted. The housing includes a front wall, a rear wall and a side wall. The side wall is located opposite the side of the basin and is configured to shield an adjacent washing station from water droplets being blown around in the cavity. According to an exemplary embodiment, the rear wall includes a first portion that extends in a substantially vertical direction and a second portion that extends towards a user in a substantially horizontal direction. According to another exemplary embodiment, the housing defines a first cavity entrance provided along an upper or a forward face of the housing and a second cavity entrance provided along a lateral side face of the housing opposite the side wall.
Another exemplary embodiment of the present invention relates to a lavatory system comprising a hand washing station including a basin and a hand dryer located adjacent the basin. The hand dryer includes a housing defining a cavity in which a user's hands are inserted. The hand dryer includes a first air outlet and a second air outlet. The first and second air outlets are positioned to direct air from two different positions within the cavity to dry a user's hands and are positioned such that first air outlet and the second air outlet are located on opposite sides of the user's hand within the cavity. Both the first air outlet and the second air outlet are positioned to direct blown air toward the user's hand and toward the rear of the cavity. According to an exemplary embodiment, the housing includes at least one top wall defining an upper end of the cavity, the top wall inhibiting water from exiting the cavity in a generally vertical direction during drying of the user's hands. According to an exemplary embodiment, at least the first air outlet is located below the top wall. According to an exemplary embodiment, at least one of the air outlets is positioned along a lower surface of the top wall. According to another exemplary embodiment, at least one of the air outlets is aimed to direct air downward within the cavity. According to another exemplary embodiment, the cavity is shaped and positioned to receive the user's hands in a horizontal position, and, in another exemplary embodiment, the cavity is shaped and positioned to receive the user's hand's in a vertical position. The hand dryers are configured to maximize visibility of the user's hands during drying. According to another exemplary embodiment, the cavity includes an opening generally facing the front edge of the countertop, the opening allowing the user's hands to enter and exit the cavity through the opening. According to another exemplary embodiment, the cavity includes an opening generally facing the basin, the opening allowing the user's hands to enter and exit the cavity through the opening. Air is directed at an oblique angle relative to the user's skin so that any materials discharged from the user's skin is directed into the containment cavities or drainage.
The present inventions further relate to various features and combinations of features shown and described in the disclosed embodiments. Other ways in which the objects and features of the disclosed embodiments are accomplished will be described in the following specification or will become apparent to those skilled in the art after they have read this specification. Such other ways are deemed to fall within the scope of the disclosed embodiments if they fall within the scope of the inventions described herein.
According to the embodiments illustrated, lavatory system 10 includes at least one hand washing station and at least one hand drying fixture. Each hand washing station generally includes a basin, shown as sink 16 (e.g., bowl, receptacle, etc.), a drain 18, a countertop 20 at least partially surrounding a portion of sink 16, a backsplash 22 extending upwardly at a rear portion of countertop 20, hand washing fixtures 24 (e.g., faucet, soap dispenser, etc.) associated with each sink 16, and, in the embodiments shown, lavatory system 10 includes a hand drying fixture (e.g., electric hand dryer, etc.), shown as hand dryer 26, associated with the hand washing station. In various embodiments, hand dryer 26, sink 16 and/or hand washing fixtures 24 may be supported by (e.g., directly coupled to, integral with, bonded to, formed from the same piece of material as, in contact with, etc.) countertop 20. In some embodiments, sink 16 and/or hand washing fixtures 24 may be supported by countertop 20, and, in contrast to embodiments where hand dryer 26 is also supported by countertop 20, hand dryer 26 may be supported by a wall of the lavatory in proximity to countertop 20.
According to an exemplary embodiment, the one or more of the fixtures (e.g., hand washing fixture 24, hand dryer 26, etc.) may be touchless, meaning that a user can operate the fixtures without physically contacting the fixtures and/or an interface coupled to the fixtures (i.e., hands-free operation). In this manner, the lavatory system is intended to overcome sanitation and/or accessibility limitations often associated with many conventional fixtures. A control system (e.g., control system 180 shown in
Lavatory system 10 includes a hand dryer 26. Hand dryer 26 is configured to be integrated (e.g., coupled to, mounted adjacent to, part of, etc.) with lavatory system 10. According to an exemplary embodiment, a hand dryer 26 is provided at each first and second washing station 12, 14 so that a user does not have to move away from the washing station before drying his or her hands. In various embodiments, hand dryer 26 is positioned within arms length from the sink. In various embodiments, the lateral side of the hand dryer 26 may be less than about three feet from the nearest portion of the rim of sink 16. In various embodiments, the lateral side of the hand dryer 26 may be less than about two and half feet from the nearest portion of the rim of sink 16, specifically may be less than about two feet from the nearest portion of the rim of the sink 16, and more specifically may be less than about one foot from the nearest portion of the rim of the sink. In one embodiment, the lateral side of the hand dryer 26 may be less than about six inches from the nearest portion of the rim of sink 16.
According to the various alternative embodiments, first and second washing stations 12, 14 having a continuous countertop may share a common hand dryer 26 (e.g., the hand dryer may be mounted on the countertop between the two sinks of the washing stations, etc.). Having access to hand dryer 26 at the washing station, as opposed to a distance away from the washing station, is intended to reduce the likelihood that water from a user's hands will collect on the floor of the facility in which lavatory system 10 is located. According to the embodiments illustrated, hand dryer 26 is supported by countertop 20 of the washing station at a position that is closely adjacent to sink 16 and at approximately the same depth of sink 16 relative to a front edge of countertop 20. As shown in the FIGURES, countertop 20 is configured to be larger on one side to accommodate hand dryer 26.
According to an exemplary embodiment, hand dryer 26 is an electric hand dryer configured to provide forced air in the direction of a user's hands. Hand dryer 26 generally includes an upper housing 28 (e.g., body, casing, etc.) having a first or front portion, shown as front wall 30 (e.g., arm, member, etc.), a second or rear portion, shown as a rear wall 32 (e.g., arm, member, etc.) and a third or side portion, shown as a side wall 34 (e.g., arm, member, etc.). Front wall 30, rear wall 32 and side wall 34 cooperate to define a cavity 38 configured to receive a user's hands. According to an exemplary embodiment, hand dryer 26 may also be configured without side wall 34 (e.g., the exemplary embodiments shown in
According to an exemplary embodiment, hand dryer 26 is supported by countertop 20 at an orientation so that front wall 30 and rear wall 32 are substantially parallel to a front and/or rear edge of countertop 20. Such an orientation may allow a user to insert his or her hands into hand dryer 26 in a rather continuous and direct motion subsequent to using sink 16 (e.g., by moving his or her hands laterally from sink 16, side-to-side, into hand dryer 26). According to the various alternative embodiments, hand dryer 26 may be supported at any of a number of orientations relative to the components of lavatory system 10.
To facilitate the insertion of a user's hands into hand dryer 26, cavity 38 is open at its side end facing sink 16 and opposite side wall 34 as well as at its upper end. The space between a free end (e.g., upper end, etc.) of rear wall 32 and a free end of front wall 30 provides a first cavity entrance, shown as front facing entrance 40. Front facing entrance 40 has a sufficient width and height to allow a user's hands to be at least partially inserted to cavity 38 through front facing entrance 40 by moving the hands from the front, rearwardly into cavity 38. The space between a lateral side of rear wall 32 (shown as the left-facing side in
As can be seen from
Located at a bottom portion of cavity 38 is a collection area (e.g., bottom wall, tray, receptacle, etc.), shown as a reservoir 42, that is configured to at least initially collect water as it is blown or drips off of a user's hands. As shown, cavity 38 is located above reservoir 42. According to an exemplary embodiment, reservoir 42 communicates with drain 18 of sink 16 so that sink 16 and hand dryer 26 share the same main drain line. Such a configuration may advantageously allow water to be removed from hand dryer 26 without having to provide a separate collection device within the hand dryer and/or an independent drain line. By eliminating a separate collection device within the hand dryer, periodic maintenance of the hand dryer, that would otherwise by necessary to empty the water, can be avoided. Providing a shared drain between hand dryer 26 and sink 16 may also simplify the manufacture and/or installation of lavatory system 10.
Referring to
Referring to
Hand dryer 26 also includes a lower housing 48 (shown in
Referring to
For the embodiments in which a drain (e.g., drain 44, etc.) is provided in reservoir 42, a device may be added to assist in moving the water collected in reservoir 42 down the drain in a more rapid or accelerated manner. Water droplets collecting in reservoir 42 may be become airborne (e.g., as a mist, etc.) if the fan continues to blow air through the air outlets while water is in reservoir 42. Once airborne, the water droplets may be sprayed undesirably back onto the user, onto other portions of lavatory system 10, onto the floor and/or onto an adjacent washing station.
According to a first exemplary embodiment, the motor of hand dryer 26 is used to help expedite the drainage of water from reservoir 42 into drain 44. For example, the suction side of the motor may be coupled to conduit 46 to create a pressure differential between the air within reservoir 42 near drain 44 and the air within conduit 46 so that water is urged into conduit 46 towards drain 18. In such an embodiment, a water separator or other suitable device would likely need to be inserted in the line to prevent water and/or other contaminants from entering the motor. According to a second exemplary embodiment, one or more fittings can be added to conduit 46 to form a venturi nozzle which creates a pressure drop in conduit 46 which draws water through drain 44, down conduit 46 and into drain 18. According to the various alternative embodiments, any other device for creating a vacuum and/or pressure drop within conduit 46 may be used to expedite the removal of water from reservoir 42.
One or more sensors are positioned to detect the presence of a user's hands when inserted into cavity 38 via front facing entrance 40 and/or lateral facing entrance 41. Such sensors are arranged to send a signal to the hand dryer motor when a user's hands are introduced to cavity 38. According to an exemplary embodiment, the sensors are configured to inhibit or prevent inadvertent activation of hand dryer 26.
Referring to
In the embodiment shown in
Hand dryer 26 is configured to operate in the following manner in conjunction with the washing station for which hand dryer 26 is associated. When a user of the washing station finishes washing his or her hands, the user remains in front of sink 16 and simply moves his or her hands laterally towards hand dryer 26. At all times during this movement, the user's hands are over sink 16, over countertop 20 and/or within hand dryer 26, thus allowing water to be contained within lavatory system 10. As the user's hands are moved from sink 16 to hand dryer 26 the user's hands are not directly positioned over the floor of the lavatory which limits or prevents water from dripping onto the floor from the user's hands.
In one embodiment, when a user's hands are first inserted into cavity 38 through front facing entrance 40 or lateral facing entrance 41, one or more sensors (e.g., rear hand dryer sensor 184, front hand dryer sensor 186) detect the presence of the user's hands and send a signal directly to the motor to drive the fan. The fan is thus rotated and air is drawn into lower housing 48 through the air inlet. The airflow leaving the fan is divided into two separate airflows, a first airflow directed into first duct 50 and a second airflow directed into the second duct 52. Alternatively, the first duct 50 and the second duct 52 may be a common manifold delivering air to front wall 30 and rear wall 32 passageways. First duct 50 and second duct 52 direct the airflow to air passageways in front wall 30 and rear wall 32 respectively for exiting from the air outlets. In another embodiment, shown in
The air flows from the air outlets and is directed towards the surfaces of the user's hands which, during use, are inserted into cavity 38 and are subsequently withdrawn from cavity 38 via front facing entrance 40 and/or lateral facing entrance 41. As the user's hands pass into and out of cavity 38, the air exiting the air outlets blows any existing water or material off the user's hands. To dry a user's hands it will take only a small number of passes of the hands between the air outlets. The water removed by the air is collected inside cavity 38 by reservoir 42. The water droplets will fall to reservoir 42 under the forces of gravity while the air exits cavity 38 either through front facing entrance 40 and/or through lateral facing entrance 41. Water collected in reservoir 42 is directed to the main drain line that is servicing sink 16. Depending on the configuration of reservoir 42, water is directed to the main drain line by being emptied into sink 16 and/or by being passed through conduit 46, which is in communication with the main drain line, as discussed above.
At least partially because of the configuration of rear wall 32 and front wall 30, the air exiting the air outlets is contained within cavity 38. This reduces the risk of air and/or water being blown onto other parts of the user (e.g., face, torso, etc.), onto the other parts of lavatory system 10, onto the floor and/or onto an adjacent washing station. For example, referring to
To further assist in preventing air and/or water from being blown onto other parts of the user (e.g., face, torso, etc.), onto the other parts of lavatory system 10, onto the floor and/or onto an adjacent washing station, third wall 34 is provided. As shown in
Referring to
In the embodiment shown in
The multi-station lavatory systems shown in
As can be seen in the FIGURES, the hand dryer embodiments discussed herein are supported adjacent to the sink such that the heights of the entrances or openings of the hand dryer are substantially the same as the height of the adjacent sink. For example, as shown in
Referring to
Referring to
Referring to
Further, in various embodiments, each of the hand dryers include at least two air outlets positioned such that air is directed at the user's hands from at least two different directions on opposite sides of the user's hands. Thus, in various embodiments, the hand dryers discussed herein provide for bi-directional or multi-directional airstreams within the drying cavity. In the various embodiments, the hand dryers include one or more drying cavities that receive a user's hands during a drying operation, and the drying cavities are sized to provide containment of air and water and yet to provide an open feel suitable for public restrooms. In the various embodiments, the drying cavities of the hand dryers are shaped and positioned to allow the user to hold their hands in a natural, comfortable position during the drying operation without the user's hands contacting the inner surface of the hand dryer cavity. Further, in the various embodiments, the drying cavity includes one or more openings conveniently positioned to allow the user's hands to enter and exit the drying cavity. The hand dryer may include at least two spaced apart, opposing air outlets positioned to deliver blown air to the cavity. In one such embodiment, the air outlets are formed along the inner surface of the hand dryer housing that defines the hand drying cavity.
As discussed above, lavatory system 10 includes a sink 16 having a drain 18, a countertop 20 at least partially surrounding a portion of sink 16, a backsplash 22 extending upwardly at a rear portion of countertop 20 and a generally horizontal shelf or platform 36 extending from the upper edge of backsplash 22. Lavatory system 10 also includes a plurality of hand washing fixtures, shown as a soap dispenser 60 and a faucet 62, extending from the front edge of platform 36 toward the front edge of countertop 20 generally above sink 16.
The embodiment of lavatory system 10 shown in
As shown in
In the embodiment shown, the width of cavity 76 (i.e., the length of the axis of cavity 76 generally parallel to the front edge of countertop 20) is greater than the height of cavity 76 (i.e., the length of the axis of cavity 76 generally perpendicular to bottom wall 70). In various embodiments, the width of cavity 76 may be more than about twice the height of cavity 76. In other embodiments, the width of cavity 76 may be more than about three times the height of cavity 76 or more than about four times the height of cavity 76. The convex top wall, concave bottom wall, and the relative sizes of the width and height of cavity 76 are such that cavity 76 is configured to receive the user's hands in a generally horizontal position or orientation (i.e., with the palms of the hands facing either up or down and generally parallel to countertop 20 and with the finger tips pointing generally toward the rear edge of countertop 20). Further, the shape of cavity 76 may also be configured to receive the user's hands in an oblique position/orientation (i.e., with the palms of the hands positioned at an angle relative to countertop 20). The shape of cavity 76 may also provide for containment and drainage of water from the users hands. In one embodiment, the housing of hand dryer embodiments discussed herein is configured to receive the user's hands in a horizontal position without the user's hands contacting the inner surfaces of the cavity. The horizontal positioning of hands during drying provided by cavity 76 may be a natural, comfortable position for the user of hand dryer 66.
Hand dyer 66 includes one or more air outlets (e.g., ports, apertures, nozzles, etc.) positioned along the lower surface of top wall 68. In one embodiment, hand dryer 66 includes a plurality (e.g., 2, 3, 4, 5, 6, etc.) of air outlets along the lower surface of top wall 68. In one exemplary embodiment, the air outlets are aimed to direct blown air downward toward bottom wall 70 and rearward toward the rear edge of countertop 20. Hand dryer 66 includes a front wall 80 positioned along the front edge of countertop 20 in front of cavity 76. As shown, front wall 80 is positioned vertically below the top wall 68 and is integrally formed with countertop 20. Front wall 80 includes a section extending generally perpendicular to and above the upper surface of countertop 20. Hand dryer 66 includes one or more air outlets positioned along the inner, rearward facing surface of front wall 80. In one exemplary embodiment, hand dryer 66 includes a single air outlet positioned along the inner, rearward facing surface of front wall 80 that is aimed to direct blown air towards the rear edge of countertop 20. As can be seen in this embodiment, air outlets of top wall 68 are positioned higher (e.g., at a higher position relative to the vertical axis) than the air outlets of front wall 80. Further, air outlets of top wall 68 may be positioned rearward of the air outlets of front wall 80. For example, air outlets of top wall 68 are positioned between the rear edge of countertop 20 and front wall 80. In another embodiment, bottom wall 70 may include one or more air outlets positioned along its upward facing surface. In this embodiment, the air outlets of bottom wall 70 are spaced apart from and opposing the air outlets of top wall 68.
As shown in
With the user's hands positioned within cavity 76, the air from the air outlets of top wall 68 and front wall 80 is directed through cavity 76 in the directions indicated above. Thus, during drying, water and/or particulate removed from the user's hands is directed generally downward toward bottom wall 70 and rearward toward the rear edge of countertop 20 by the blown air. The positioning or aiming of the air outlets helps to direct and contain both the water from the user's hands and the blown air within cavity 76. Hand dryer 66 includes one or more exhaust ports 82 positioned within cavity 76 that leads to an exhaust chamber. In the embodiment shown, exhaust ports 82 are shown positioned through bottom wall 70. Exhaust ports 82 provide an inlet to receive water and blown air facilitating the removal of water and blown air from cavity 76. In various embodiments discussed herein, the exhaust chamber may be exposed to a vacuum the help draw water and blow air into the exhaust chamber through exhaust ports 82.
In the embodiment shown in
According to an exemplary embodiment, the hand dryer increases the air volume delivered to the hands using one or more slots 83 (e.g., apertures, holes, openings, etc.). Slots 83 act as nozzles and are shaped (e.g., choked) to provide the desired balance of pressure, velocity, and volume of air to cavity 76. Slots 83 may be shaped having a cross-sectional area that varies along the length of the slot in manner to control air flow into cavity 76. Slots 83 are located in top wall 68. Alternatively, the slots may be located in any of a variety of locations on the hand dryer or countertop. The air moving through the air duct draws outside air to increase the overall air volume delivered from the air outlets to the user's hands. Although shown in the embodiment of
The embodiment of lavatory system 10 shown in
As shown in
As shown in
Hand dyer 90 includes one or more air outlets (e.g., ports, apertures, nozzles, etc.) positioned along the lower surface of top wall 92. In one embodiment, hand dryer 90 includes a plurality of (e.g., 2, 3, 4, 5, 6, etc.) air outlets along the lower surface of top wall 92. In one exemplary embodiment, the air outlets of top wall 92 are aimed to direct blown air downward toward bottom wall 94 and rearward toward the rear edge of countertop 20. Front portion 100 is positioned along the front edge of countertop 20 in front of cavity 98. As shown, front portion 100 is positioned vertically lower than top wall 92 and may be a separate piece mounted to countertop 20. In another embodiment, front portion 100 may be integrally formed with countertop 20. Hand dryer 90 includes one or more air outlets positioned along the inner, rearward facing surface of front portion 100. In one exemplary embodiment, hand dryer 90 includes a single air outlet positioned along the inner, rearward facing surface of front portion 100 that is aimed to direct blown air towards the rear edge of countertop 20. As can be seen in this embodiment, air outlets of top wall 92 are positioned higher (e.g., at a higher position relative to the vertical axis) than the air outlets of front portion 100. Further, air outlets of top wall 92 are positioned rearward of the air outlets of front portion 100 (e.g., between the rear edge of countertop 20 and front portion 100). As shown, front portion 100 is raised from or extends vertically above the outer surface of countertop 20. Thus, in addition to providing a mounting surface for one or more air outlets, front portion 100 acts as a deflector shield by, at least partially, blocking or inhibiting water and particulates and air from traveling out of the cavity 98 back toward the front edge of countertop 20 and the user.
With the user's hands positioned within cavity 98, the air from the air outlets of top wall 92 and front portion 100 is directed within cavity 98 in the directions indicated above. Thus, during drying, water and particulates removed from the user's hands are directed generally downward toward bottom wall 94 and rearward toward the rear edge of countertop 20 by the blown air. Thus, the positioning or aiming of the air outlets helps to direct and contain both the water and particulates from the user's hands and the blown air within cavity 98. Water and particulates that leave the user's hands are received within reservoir 110 and are permitted to flow through reservoir 110 to drain 18. In various embodiments, hand dryer 90 may include one or more exhaust ports within cavity 98 that lead to an exhaust chamber. The exhaust ports may provide an inlet to receive water and particulates and blown air facilitating the removal of water and particulates and blown air from cavity 98. In one embodiment, one or more exhaust ports are located along the inner surface of sidewall 96.
The embodiment of lavatory system 10 shown in
In the embodiment of
Openings 136 and 138 are generally facing the front edge of countertop 20. To use hand dryer 120, the user's left hand is inserted through opening 136 into left hand cavity 132, and the user's right hand is inserted through opening 138 into right hand cavity 134. As shown in
As shown in
As shown, the heights of left hand cavity 132 and right hand cavity 134 (i.e., the lengths of axis of each cavity 132 and 134 generally perpendicular to countertop 20) are greater than the widths of left hand cavity 132 and right hand cavity 134 (i.e., the lengths of the axis of each cavity 132 and 134 generally parallel to the front edge of countertop 20). Thus, left hand cavity 132 and right hand cavity 134 are generally shaped to receive the user's hands in a generally vertical position (i.e., with the palms of the hands typically facing center wall 126 and generally perpendicular to countertop 20 and with the finger tips pointing generally toward the rear edge of countertop 20) and provide for containment and drainage of water and particulates from the users hands. The vertical positioning of hands during drying provided by cavities 132 and 134 may be a natural, comfortable position for the user of hand dryer 120. Because a user's hands may be placed in a plurality of vertical positions within cavities 132 and 134, the vertical orientation of cavities 132 and 134 may allow hand dryer 120 to be conveniently used by user's of various heights. In other embodiments, left sidewall 124, center wall 126 and right sidewall 128 may be other shapes (e.g., ovals, rectangles, etc.) and may be positioned at other angles relative to the horizontal plane. In one embodiment, the housing of hand dryer embodiments discussed herein is configured to receive the user's hands in a vertical position without the user's hands contacting the inner surfaces of the cavity.
As shown in
In one embodiment, hand dyer 120 includes one or more air outlets (e.g., ports, apertures, nozzles, etc.) positioned along the lower surface of top wall 122. In one exemplary embodiment, the air outlets of top wall 122 are aimed to direct blown air downward toward bottom of reservoir 140 and rearward toward the rear edge of countertop 20. In another embodiment, top wall 122 does not include air outlets and functions as a shield inhibiting water and air from exiting cavity 130 in the vertical direction.
In the embodiment shown in
With the user's hands positioned within cavities 132 and 134, the air from the air outlets of hand dryer 120 is directed through cavities 132 and 134 in the directions indicated above. Thus, during drying, water removed from the user's hands is directed generally downward toward the bottom of reservoir 140 and rearward toward the rear edge of countertop 20 by the blown air. Thus, the positioning or aiming of the air outlets helps to direct and contain both the water from the user's hands and the blown air within cavities 132 and 134. As noted above, water that leaves the user's hands is received within reservoir 140 and is permitted to flow through reservoir 140 to drain 18.
Hand dryers 66, 90 and 120 shown in
In one embodiment shown in
It should be understood that receiving control signals at the fixture or hand dryer can include receiving control signals at control circuits, power supplies, electronically controlled valves, timers, switches, logic elements, or other control devices associated with the hand washing fixture or hand dryer. In some embodiments, the control signals may be received directly from the sensors and a distributed collection of switches or logic circuitry for hand washing fixtures, hand dryer, and/or the sensors can be considered the controller or control system. Alternatively, one of the controller for the hand washing fixture or the controller for the hand dryer may serve as the master controller relative to the other controller. For example, the controller for the hand washing fixture may include hand detection logic and allow or restrict power to the hand dryer blower (via a control signal, via a switch that disconnects power, etc.). In another embodiment, the hand dryer includes its own hand detection logic, but the on/off decisions are conducted by a controller of the hand washing fixture. In yet other embodiments, the hand washing fixture controller may receive a status signal (e.g., on, off) from the hand dryer and may include logic that will not allow an electronically controlled valve of the hand washing fixture to open when the status signal from the hand dryer indicates that the hand dryer is active. In another example, the hand dryer may include a master controller that primarily controls the activation or deactivation activity for both the hand dryer and the hand washing fixture.
In one embodiment, lavatory system 10 includes a first sensor that is located toward the rear of the drying cavity, shown as rear hand dryer sensor 184, and a second sensor that is located toward the front of the drying cavity, shown as front hand dryer sensor 186. In one embodiment, front hand dryer sensor is positioned near either the front or lateral entrance of the hand drying cavity. Lavatory system 10 may also include a hand washing fixture sensor 188 that detects the user's hands adjacent to fixture 24. In response to a signal from hand washing fixture sensor 188 representing the detection of the user's hands adjacent to hand washing fixture 24, the controller 182 activates (e.g., causes the activation of, triggers, initiates, etc.) the flow of water, soap, or other hand washing fluid from fixture 24. In one embodiment, rear hand dryer sensor 184 detects when the user's hands have been fully inserted into the cavity. In response to a signal from rear hand dryer sensor 184 representing the detection of the user's hands fully inserted into the cavity, the controller 182 activates the blower fan of the hand dryer. In this embodiment, front hand dryer sensor 186 detects the user's hands exiting the dryer cavity. In response to a signal from front hand dryer sensor 186 representing the detection of the user's hands exiting the dryer cavity, the controller 182 deactivates the blower fan (e.g., sends a ‘shut off’ signal to a controller of the blower fan, causes power to be removed from the blower fan, etc.). In one such embodiment, the controller 182 may cause the blower fan of the hand dryer to remain on, once activated, until front hand dryer sensor 186 detects that the user's hands have completely or nearly completely exited the drying cavity of the hand dryer.
In various embodiments, a variety of sensors may be used. For example, through-beam sensors, reflectivity sensors, position sensors, optical sensors, capacitive sensors, or any other sensors (or system of sensors) suitable for detecting the presence or absence of a human hand may be used in the lavatory system 10. It should be understood that detecting a user's hands can include completing sensor detections and outputs appropriate for the type of sensor or sensors used in the lavatory system 10. For example, if the sensor is a capacitive sensor, detecting a user's hands can be or include varying an output signal from the sensor in response to a detected capacitance change. In some embodiments, the controller 182 interprets varying output signals (e.g., analog, digital, etc.) from the sensor to determine whether one or more threshold conditions are met or exceeded. Such activities can all be considered detecting a user's hand using a lavatory control system.
Controller 182 may generally be an electronic control circuit or control unit suitable to provide lavatory system 10 with the various control functionalities discussed herein. Controller 182 may be hardwired, programmed, or both. Controller 182 may be an embedded system, a dedicated circuit, or a general purpose system programmed with the functionality described herein. Controller 182 may include a processing circuit (e.g., a general purpose processor, an application specific processor, etc.) configured to provide the control lavatory system 10 as described in the present application. Controller 182 may include memory (e.g., memory unit, memory device, storage device, etc.) which may be one or more devices for storing data and/or computer code for completing and/or facilitating the various functions discussed herein. The memory may include volatile memory and/or non-volatile memory. Controller 182 may also include various communication links and communication interfaces for providing communication between the sensors, fixtures and the controller of lavatory system 10. The communication interface may include one or more jacks or other hardware for physically coupling the sensors and fixtures to controller 182, an analog to digital converter, a digital to analog converter, signal processing circuitry, a transmitter, a receiver, and/or any other suitable components for effecting the communication described in the present application. Communication interface may include hardware configured to connect controller 182 with the sensors and fixtures of lavatory system 10 via wireless connections.
Each of the lavatory system embodiments shown in
In one embodiment, air delivered from the air outlets is a high speed, high pressure air flow that pushes, scrapes, or wipes water or particulate from the user's hands, as opposed to primarily drying the user's hands via evaporation. The air outlets of the various hand dryer embodiments are configured to generate a sheet, wall, or series of columns of high velocity air. To dry ones hands, the user's hands are moved through the sheet, wall, or series of columns of high velocity air and the wall of high velocity air scrapes (e.g., wipes, moves, pushes, etc.) the water from the user's hands. In other embodiments, the hand dryer embodiments discussed herein may deliver heated air that dries the user's hands via a combination of evaporation and physical removal of water from the user's hands. Air is directed at an oblique angle relative to the user's skin so that any materials discharged from the user's skin is directed into the containment cavities or drainage.
According to an exemplary embodiment, one or more of fixtures of lavatory system 10 (e.g., hand washing fixtures 24, hand dryer 26, etc.) may be powered by a photovoltaic cell and a power management system such as disclosed in U.S. patent application Ser. No. 11/041,882 titled “Lavatory System” filed Jan. 21, 2005, which is hereby incorporated herein by reference in its entirety. According to another exemplary embodiments, one or more of the fixtures on lavatory system 10 (e.g., hand washing fixtures 24, hand dryer 26, etc.) may be powered by another energy efficient device such as a paddle wheel. According to still another exemplary embodiment, one or more of the fixtures on lavatory system 10 (e.g., hand washing fixtures 24, hand dryer 26, etc.) may be powered by an AC power line, or DC power switching supply.
In the various embodiments discussed herein, the hand dryers may be configured to deliver pulsed air (e.g., air that is delivered in a series of bursts) from the air outlets instead of delivering steady, continuous streams of air during drying. In various embodiments, using pulsed air may provide for sufficient or superior drying performance, may be more comfortable to the user and may also provide for reduction in energy consumption during the drying process.
Referring to
When hand dryer 160 is activated (e.g., via sensors, as discussed above, via activation of a switch or button, etc.), valve device 165 is briefly opened allowing a pulse of pressurized air to be released from plenum 164 and into air directing device 166. Air directing device 166 directs the released pulse of air through the appropriate conduits to one or more of air outlets 168. Air outlets 168 direct the air toward the user's hands within the cavity of the hand dryer to remove water for the user's hands. The lavatory system equipped with hand dryer 160 may include a control system having a control circuit (e.g., a processor, etc.) that controls the various components of hand dryer 160 to deliver pulsed air as discussed herein.
In one embodiment, as shown in the schematic diagram of
As shown schematically in the exemplary embodiment of
Air directing device 166 may be any device or combinations of devices to direct air to the appropriate air outlets 168 of hand dryer 160. For example, in one embodiment, air directing device 166 may include a dedicated conduit for each air outlet 168 and a dedicated valve that releases air from plenum 164 into the conduit to be delivered to the appropriate air outlet 168 in the sequence. In one such embodiment, the dedicated valve for each air outlet may be a timed solenoid valve that is opened to deliver pulsed air to each air outlet in the appropriate sequence. In other embodiments, air directing device 166 may be a single device or valve that sequentially delivers air to the appropriate air outlets in the sequence. For example, in various embodiments, air directing device 166 may be a rotating piston valve or may be a multi-valve with a rotating cylindrical piston.
In various embodiments, plenum 164 may be sized to store sufficient pressurized air to deliver pulsed air for multiple drying operations. In this embodiment, motor 162 is activated to refill plenum 164 when the pressure within plenum 164 falls below a certain threshold. In another embodiment, plenum 164 may be sized to store sufficient pressurized air to deliver pulsed air for multiple drying operations, and motor 162 is activated to refill plenum 164 following each drying operation. In yet another embodiment, plenum 164 may be sized to store pressurized air for a single drying operation, and, in this embodiment, motor 162 is activated to refill plenum 164 following each drying operation. Using plenum 164 to deliver pulsed air may allow hand dryer 160 to be constructed with a motor 162 that is smaller (e.g., lower power, etc.) than may needed to deliver pulsed air directly from the motor to air outlets 168. Further, because a lower power motor may be used to fill plenum 164 as required, in some embodiments, hand dryer 160 may consume less energy than a hand dryer that delivers pulsed air directly from the motor.
It is to be understood that the inventions disclosed herein are not limited to the details of construction and the arrangement of the components set forth in the description or illustrated in the drawings. The inventions are capable of other embodiments or being practiced or carried out in various ways. It is also to be understood that the phraseology and terminology employed herein is for the purpose of description and should not be regarded as limiting.
Also, the particular materials used to construct the exemplary embodiments are also illustrative. For example, the countertop, sink, hand dryer, etc. may be made from any of a variety of solid surface materials, stainless steel, laminates, fiberglass, engineered stone, natural quartz, quartz surfacing materials, and the like. According to an exemplary embodiment, the countertop is made from a densified solid surface material composed of an acrylic modified polyester resin, and/or other applicable regulations or standards. The upper housing of the hand dryer may be formed of the same material to substantially match the countertop and/or sink. The surface material may be of a type commercially available under the trade name TERREON® or EVERO™ from Bradley Corporation of Menomonee Falls, Wis.
Also, the terms are intended to be broad terms and not terms of limitation. These components may be used with any of a variety of hand washing locations and are not intended to be limited to use with washroom or restroom applications. For purposes of this disclosure, the term “coupled” shall mean the joining of two members directly or indirectly to one another. Such joining may be stationary in nature or movable in nature. Such joining may be achieved with the two members or the two members and any additional intermediate members being integrally formed as a single unitary body with one another or with the two members or the two members and any additional intermediate member being attached to one another. Such joining may be permanent in nature or alternatively may be removable or releasable in nature. Such joining may also relate to mechanical, fluid, or electrical relationship between the two components.
It is also important to note that the construction and arrangement of the elements of the lavatory system as shown in the exemplary embodiments are illustrative only. While the current application recites particular combinations of features in the claims appended hereto, various embodiments of the invention relate to any combination of any of the features described herein whether or not such combination is currently claimed, and any such combination of features may be claimed in this or future applications. Although only a few embodiments of the present inventions have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters, mounting arrangements, materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter recited in the disclosed embodiments. For example, various embodiments are shown as one or two wash stations, but it should be understood that these are shown as examples and the invention is applicable to any of a variety of wash station configurations (e.g., one, two, three, four, etc. stations). Accordingly, all such modifications are intended to be included within the scope of the present inventions as defined in the disclosed embodiments. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the disclosed embodiments, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and/or omissions may be made in the design, operating conditions and arrangement of the preferred and other exemplary embodiments without departing from the spirit of the present inventions.
This application claims the benefit of U.S. Provisional Application No. 61/278,487, filed Oct. 7, 2009, and of U.S. Provisional Application No. 61/324,263, filed Apr. 14, 2010, both of which are incorporated herein by reference in their entireties.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US10/51647 | 10/6/2010 | WO | 00 | 4/1/2011 |
Number | Date | Country | |
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61278487 | Oct 2009 | US | |
61324263 | Apr 2010 | US |