The present disclosure generally relates to hand washing equipment. More specifically, the present disclosure relates to a portable self-contained hand washing unit having a plurality of separate spaced apart washing stations capable of simultaneously accommodating multiple users.
The importance of frequent hand washing has long been recognized as valuable in order to maintain good personal hygiene and limit the spread of pathogens that may cause diseases. These hand washing units typically include a fresh or clean water supply which is dispensed to a sink for washing and a means for storing or disposing of the waste water. For the comfort of the user and to encourage conformity with best hand washing practices it may be advantageous if the hand washing unit also comprises a means for heating the water supplied to the sink. This may be challenging to achieve at locations such as construction or tourist sites, where access to fixed plumbing and power supplies is limited or unavailable.
Additionally, such portable hand washing equipment typically only accommodates a single user at a given time, which is undesirable at locations where large numbers of people congregate, for example sporting events or music concerts. Thus, it would be desirable to provide a hand washing unit that can accommodate multiple users at one time. Furthermore, it would be desirable to allow the multiple users to be spaced apart at the recommended distance specified by health agencies to minimize the spread of pathogens, such as through the air, between the users.
The present disclosure provides a portable hand washing unit that may include (a) a base unit; (b) a fresh water tank operable to receive and store a volume of clean water, (c) a waste water tank operable to receive and store a volume of waste water, (d) a plurality of washing stations, each washing station in fluid communication with the fresh water tank and the waste water tank, (e) a water pump in fluid communication with the fresh water tank and the plurality of washing stations; (f) a heating and mixing system in fluid communication with the water pump; and (g) a power source in electrical communication with the water pump and heating and mixing system where: the water pump is operable to disperse clean water from the fresh water tank to the plurality of washing stations; and the heating and mixing system is operable to control the temperature of the clean water dispersed by the water pump to the plurality of the washing
In drawings which illustrate embodiments,
The present disclosure is generally directed to a portable hand washing unit. More specifically, the present disclosure provides a portable hand washing unit that is self-contained and can accommodate a plurality of users at one time. Advantageously, the hand washing unit is configured to supply water to a plurality of spaced apart washing stations which enables multiple users to access the unit at one time while maintaining suitable spacing between each user. This may be particularly desirable in situations where social distancing is required, for example in situations where it is desired to reduce the risk of the spread of pathogens between users.
The portable hand washing unit of the present disclosure is also configured to be easily transported to and from a location as needed, such as to a movie or television filming location, a construction site, a sporting event, a concert or any other suitable location. Furthermore, because the hand washing unit is self-contained, it may be situated at a remote location, distanced from any utility resources, such as public or private electrical or plumbing resources. In one embodiment, the hand washing unit is a trailer mounted unit and may be towed by a suitable vehicle and unhitched at the desired location.
According to an embodiment, the portable hand washing unit may generally include a fresh water tank, a water pump, a heating and mixing system, a plurality of washing stations and a waste water tank. The fresh water tank is configured to receive and store a volume of fresh (or clean) water for supply to the plurality of washing stations. The water pump is operable to pump the clean water stored in the fresh water tank to the heating and mixing system and to the plurality of washing stations. The heating and mixing system is operable to control the temperature of the clean water supplied to each of the washing stations and may include a water heater and a mixing device or mixing valve. The water heater may be powered by an on-board power source or propane gas and internal flame and is operable to supply heat to the clean water to produce heated water. The mixing device or mixing valve is operable to blend clean water dispersed directly from the fresh water tank to the mixing device or valve with heated water dispersed from the water heater in order to supply clean water to each of the washing stations at a pre-determined temperature and for a pre-determined period of time. Thus, the fresh water tank and water heater are in fluid communication with the mixing device or mixing valve which is in turn in fluid communication with each washing station. Each of the washing stations may include a faucet and a non-porous sink. When the faucet is activated by a user, clean water is dispensed to the sink as waste water. Each sink is in fluid communication with the waste water tank. The waste water tank is operable to collect and store the waste water. The waste water (also known as “grey water”) which may include traces of dirt, grease, food, soap, detergent and other contaminants, may be treated by any suitable water treatment method or disposed.
The hand washing unit also includes an on-board power source for suppling power to operate the water pump, water heater and any other component of the unit which may require power. In an embodiment the power source is an on-board DC power supply.
In one embodiment, the hand washing unit includes at least four washing stations to accommodate at least four users at one time. Each of the washing stations may further include a soap dispenser and a paper towel dispenser. In other embodiments, the hand washing unit may include more than four spaced apart washing stations, such as, but not limited to, five, six, seven, eight, nine, ten or more than 10 washing stations, each of which may include a faucet, sink, soap dispenser and paper towel dispenser.
As the hand washing unit accommodates multiple spaced apart users at one time, it may be ideally suited for use during outbreaks of pathogens that may be spread through the air. The hand washing unit may be utilized at such locations where enhanced socially or physically distanced hand washing is required, such as hospitals or other medical facilities. For example, in response to a virus outbreak or natural disaster, the hand washing unit may be rapidly deployed to the site of a field hospital or other emergency response location.
With reference now to
In this embodiment, the base unit 12 supports the hand washing unit 10 and is a trailer base, which includes a generally rectangular frame 18, with three connecting members 20a, 20b, 20c extending from the front of frame 18 (
Located at the distal end of member 20c is a ball hitch 22 which is sized and configured to attach to the tow hitch of a vehicle (not shown). When the ball hitch 22 is unattached to the vehicle, the front end of hand washing unit 10 may be supported by jack 24 which may be adjusted to ensure unit 10 is substantially level.
The rear of trailer base 12 is supported by a single axle 28 attached to frame 18 and also includes rotatably mounted wheels 30a and 30b on the respective left and right sides of unit 10. Wheels 30a and 30b are sized to support the overall weight of the hand washing unit 10.
With reference to
Housing 14 may be a generally rectangular structure, comprising front panel 14a, rear panel 14b and respective left and right panels 14c and 14d, extending upwards from trailer base 12. The upper surface of housing 14 is defined by top panel 14e, flanked by respective left and right sloped panels 14f and 14g. Panels 14a-14g may be made from any suitably strong material, such as PVC coated aluminium, and may be affixed together by any suitable method, such as riveting.
As depicted in
Positioned at each upper corner of housing 14 are washing stations 16a-16d which may be constructed from similar materials in a similar manner and are operable to wash a user's hands or face or other object. Washing station 16a is shown in greater detail in
In an embodiment, sink bases 43a-d have a length of between about 10-20 inches or about 12-16 inches or about 14 inches and a width of between about 15-25 inches or about 19-21 inches or about 21 inches. Adjacent washing stations, such as washing stations 16a and 16d may be positioned between about 75-85 inches or about 78-82 inches or about 81 inches apart from each other, when measuring the distance between drains 44a and 44b.
Washing stations 16a-16d may also include hoods 50a-50d, soap dispensers 52a-52d and paper towel dispensers 54a-54d. Hoods 50a-50d may project vertically up from the inboard end of sinks 40a-40d. Soap dispensers 52a-52d are affixed to the outwards facing side of backsplashes 48a-48d and may be foaming hand soap dispensers, such as Gojo ADX-12 soap dispensers. Paper towel dispensers 54a-54d are positioned adjacent to the sinks 40a-40d and may include a retaining mechanism to hold a paper towel roll.
Sinks 40a-40d, backsplashes 48a-48d, hoods 50a-50d and paper towel dispensers 54a-54d may be manufactured from any suitable non-porous material, such as stainless steel, metal, composite or plastic.
In one embodiment, hood 50a may be pivotably connected to backsplash 48a through pivotable mechanism 56a and is operable to pivot hood 50a through 90 degrees from a first position shown in
The first position shown in
Turning to
In an embodiment, fresh water and waste water tanks 60, 62 may both have a length of about 5 feet, a width of about 3 feet and a height of about 1 foot and may have a capacity of about 425 litres. Fresh water and waste water tanks 60, 62 may be manufactured form any suitable material, such as stainless steel and may include internal baffles (not shown) to minimize water movement when the unit is being transported to or from a location. In some embodiments, fresh water tank 60 may be secured to waste water tank 62 by any suitable method, such as welding or an adjustable strap.
Fresh water tank 60 may be vented though a water fill spout 64, which exits through panel 14g in housing 14 (
With reference to
Water heater 68 may be any heater suitable for heating water, such as a storage tank water heater, a tankless (or on demand) water heater, for e.g. a Truma Aqua Go Comfort Plus water heater, a heat pump water heater or a solar powered water heater. In some embodiments, the water heater 68 may be an electric water heater which converts electricity into thermal heat to heat water. In other embodiments, the water heater 68 may be a propane water heater which uses gas and an internal flame to heat water. In the embodiment shown in the FIGS., the water heater 68 is a propane water heater that is in fluid communication with propane tanks 36 through regulator 37 (
Interior heater 76 functions to heat the interior of housing 14 and may be activated during colder weather conditions to prevent water within hand wash unit 10 from freezing. An example of interior heater 76 is a Temro 900 W heater.
The battery 74 may be sized and operable to deliver sufficient power to operate the water pump 66, water heater 68 when an electric water heater, interior heater 76 and any other component within unit 10 that needs power. In one embodiment, the battery may be a 12V battery, such as an AGM 12V battery.
With reference now to
Water system 100 may also include a return valve 72 which is in fluid communication with the outlet of water heater 68 and fresh water tank 60. and when opened, controls a flow of heated water from water heater 68 to fresh water tank 60. This may be desirable in order to raise the temperature of the clean water in fresh water tank 60, for example, in order to prevent the clean water in fresh water tank 60 from freezing. As described above, fresh water tank 60 may be positioned directly above waste water tank 62 such that heat from tank 60 may radiate towards waste water tank 62 to assist in preventing the waste water in waste water tank 62 from freezing. Thus, water system 100 is capable of operating at temperatures at or below as −15° C. and is therefore suitable for multi-season use in North America and other parts of the world.
Clean water is dispensed though faucets 42a-42d, and after washing, is collected in respective sinks 40a-d as waste water. Waste water may contain contaminates such as dirt, grease, oil, soap or food. In overview, waste water is collected in sinks 40a-40d and passed through drains 44a-d which are in fluid communication with waste water tank 62. Waste water tank 62 is operable to receive and store waste water from sinks 40a-40d prior to appropriate water treatment or disposal through gate valve 80 (
In the embodiment shown in
During use, a user may activate any one of faucets 42a-42d which causes clean water at the pre-determined temperature to be dispensed through the activated faucet for a pre-determined time. Waste water, after washing, is collected in sinks 40a-40d and flows into waste water tank 62 where the waste water may be stored. Using a faucet operable to deliver clean water for a pre-selected cycle time may ensure sufficient time for a user to maintain good hand washing practices, without the use of excess clean water.
As one skilled in the art will appreciate, the water system 100 can adopt any other suitable configuration in order to supply water from a fresh water tank to any number of separated washing stations, and collect and combine the waste water in a waste water tank.
Any of the fluid connections described above may be achieved through any conventional tubing or piping known to those skilled in the art. For example, such connections may be achieved through polyvinyl chloride (PVC), chlorinated polyvinyl chloride (CPVC), copper, galvanised steel piping, stainless steel, cross-linked polyethylene (PEX) pipes, polypropylene or other similar plumbing fixtures. In a preferred embodiment hand washing unit 10 uses PEX piping.
In other embodiments, water system 100 may be configured to supply separate streams of heated and unheated clean water from fresh water tank 102 to separate hot and cold water faucets of a washing station. For example, water pump 66 may pump clean water from fresh water tank 60 directly to cold water faucets through a cold water outlet. Thus, the cold water outlet of water pump 66 is in fluid communication with the cold water faucets of each washing station. For heated water, water pump 66 may pump clean water to water heater 68 through a hot water outlet. Thus, the hot water outlet of water pump 66 is in fluid communication with the water heater 68. Upon receiving clean water, water heater applies heat to the clean water to raise the temperature of clean water to produce warm or hot water which can then be supplied to hot water faucets of the washing stations. Thus, the water heater 68 is in fluid communication with the hot water faucets.
Referring now to
Where hand washing unit 10 includes a trailer base 12, the unit may further include tail lights 94 (
In another embodiment, the base unit of hand washing unit 10 is a skid base which may be moved by any suitable vehicle such as a forklift truck. For transporting over longer distances, the hand wash unit 10 may be loaded onto a truck and transported to the desired location. In this configuration, larger fresh and waste-water tanks may be advantageously accommodated as the hand washing unit may be transported on a vehicle with larger weight capacity, such as a semi-trailer. This will enable a greater number of hand washes between servicing of the unit.
In other embodiments, the hand washing unit 10 may be configured to receive an external supply of clean water and may be connected to an external drain or waste water tank, enabling continuous use without the requirement to refill or empty the fresh and waste water tanks. When the unit is also connected to an AC power source, uninterrupted use of the hand washing unit may be achieved which may be advantageous when the hand washing unit is required for use for a prolonged period of time, or by a high volume of users.
Clean water may be supplied to each of the washing stations at any suitable temperature through adjustment of the thermostatic mixing valve. In a specific embodiment water is supplied to the faucets of the washing station at about 35° C.-40° C., such as about 38° C. The faucets may be configured to supply water for a fixed period of time in order to encourage compliance of the user to best hand washing practices without wasting water. In a specific embodiment the faucet may supply water a constant flow rate for a time period of about 20-25 seconds, such as about 22 seconds. This will also prevent the faucet from unintentionally being left running.
In another embodiment, the hand washing unit 10 may include an electric hand drier which may be connected to the onboard DC power supply or connected to an external power supply, if available.
In another embodiment as noted above, water heater 68 may be an electric water heater, such as an electric immersion heater powered solely by battery 74 or through an electrical outlet.
In a further embodiment, a hand washing unit of the present disclosure may be in fluid communication with at least one external slave washing station which may be configured in a similar manner to the washing stations described above, but operating as a separate, stand-alone unit. When connected to an external slave washing station, the hand washing unit functions to supply fresh water to and remove grey water from the slave washing station. This may allow more users to be accommodated or to increase the spacing between users.
In an embodiment, at least one of the hand washing stations or slave washing stations may be ADA (American Disabilities Act) compliant.
While the foregoing is directed to various embodiments of the present disclosure, other and further embodiments of the disclosure may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 63/138,898 filed on Jan. 19, 2021. The contents of the aforementioned application are incorporated by reference herein.
Number | Date | Country | |
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63138898 | Jan 2021 | US |