My present invention relates to a humidifier with improved UV disinfection of the water delivered to the air.
It is known to provide disinfection in a humidifier by, for example, making parts thereof which come into contact with the water of a material which contains a biocide or by providing a disinfection source to which the water is exposed.
In a typical humidifier having a water reservoir which can be refilled by the user from a sink or the like, the water is passed to a dispersing unit which can be a mechanical humidifier, a wick through which air is passed or some other dispersing source like an ultrasonic atmosphere air distributor. The humidifier usually also includes a fan or the like for inducing flow of air through the humidifier and back into the room after that air has been moistened.
It has been found that a significant degree of disinfection can be accomplished by passing the water through a chamber which is exposed to UV (ultraviolet) radiation.
It is the principal object of the present invention to provide an improved humidifier in which the degree of sterilization of the water delivered to the water-dispersal element can be significantly enhanced.
Another object of the invention is to provide a humidifier which can ensure a greater degree of microbicidal treatment of the water than has heretofore been the case.
Still another object of the invention is to provide a humidifier of the in disinfection type whereby the level of microorganisms in the moisture dispersed into the air can be significantly reduced by comparison with earlier UV humidifiers.
It is a corollary object of the invention to provide an improved humidifier in which the measurable microorganism content of the water reaching the disbursing unit of the humidifier has a microorganism content significantly reduced beyond values which are attainable with present day humidifiers.
These objects are achieved, in accordance with the invention in a humidifier comprising:
a housing;
a water reservoir adapted to be mounted on the housing for supplying water to the humidifier;
a sterilizing path in the housing through which water can flow and in which water is exposed to ultraviolet radiation to reduce a level of microorganisms therein;
a moisture dispersal unit on the housing connected to the path and receiving water therefrom for dispersing moisture into air traversing the housing; and
a pump in the housing connected to the sterilizing path for circulating water therethrough so that at least some water supplied to the moisture dispersal unit is exposed more than once to the ultraviolet radiation along the sterilization path.
An important feature of the invention, however, which can be used without that recirculation but which is useful together therewith to further increase the duration with which the water is subjected to the UV radiation is to cause the water to pass the UV source in a helical path.
Thus the humidifier according to the invention can comprise:
a housing;
a water reservoir adapted to be mounted on the housing for supplying water to the humidifier;
a sterilizing path in the housing through which water can flow and in which water is exposed to ultraviolet radiation to reduce a level of microorganisms therein, the sterilizing path being a helical path with a plurality of turns around an elongated ultraviolet lamp; and
a moisture dispersal unit on the housing connected to the path and receiving water therefrom for dispersing moisture into air traversing the housing.
In a combined apparatus with both of these features, the humidifier can comprise the moisture dispersal unit which is a wick.
Thus I have found in a first aspect of the invention that, while humidifiers provided with active disinfection systems can reduce microorganism content to practically negligible levels, even in cases of resistant microorganisms and with microorganisms which can be successfully reduced to very low levels, the microorganism content in the air which is discharged into the room can be reduced still further. This is achieved, in accordance with the invention by collecting a portion of the water from the water dispersing means and recycling it back to the disinfection means. In particular, in the case of a wick which disperses only a small fraction of the water supplied thereto into the air in any unit of time, the water flowing from the wick is collected is recycled to the disinfection means which preferably is a chamber provided with a UV lamp.
Surprisingly, a relatively large proportion of the water which passes through the apparatus is thereby recycled through the UV lamp chamber at least several times and in each pass has its microorganism content further reduced.
The apparatus can be provided, if desired, with a HEPA filter for the air which is drawn through the apparatus and into which the water is dispersed to further displace the particular content of the humidifier air discharge by the apparatus.
In the second aspect of the invention, it has been found, quite surprisingly, that it is possible within a very limited space to provide a relatively long contact time between the UV source and the water by guiding the water in a helical path around and along the UV light source. Indeed, the degree of reduction in microorganisms in the water which reaches the dispersal unit of the humidifier in this manner is greatly increased. The reduction in microorganisms which may be dispersed into the room can be practically complete according to the invention if, in addition, there is recirculation of a part of the water to the sterilization.
The above and other objects, features, and advantages will become more readily apparent from the following description, reference being made to the accompanying drawing in which:
The humidifier shown in
The UV disinfected water is spread by the distributor over the wick structure 11 which is permeable to air so that some of the water passes along capillaries in the wick and some can flow along the surfaces of the wick to be picked up by air 12 flowing through the wick. Excess water cascades into the collector 6 from which it is recirculated by the pump 8 to the UV treatment at 9. The air which can be drawn into the unit through HEPA filter 13 by a fan 14 is driven by motor 15, is forced through the wick and is thereby humidified before it is discharged into the room through a grill 16.
Basically the apparatus of
A pump 225 whose impeller 226 is driven by a shaft 227, displaces the water from the intermediate pan 223 upwardly through a pipe 228 to a sterilization chamber 229 exposed to UV from a lamp 230 mounted in a lamp housing 231. The sterile water passes to a distributor 232 which distributes the water over a wick 233 which is traversed by the dry air admitted through the grill 211.
A small portion of the water in the wick is dispersed in the air which passes into the plenum 213 and is fed to the room by the blower 212. The remainder of the water drains downwardly and is discharged from the wick through an outlet 234 into intermediate pan 223 and is thereby recirculated by the pump 225 to the circulation chamber 229.
The blade 212 is driven by a motor 235 which is connected to the shaft 227 and likewise drives the pump 226.
In
The apparatus can otherwise be similar to that of U.S. Pat. No. 5,783,117 and reference may be had to that patent for any of the parts of the apparatus which have not been described herein or may not be relevant to the improvement of the invention.
In
In operation, therefore, some of the air drawn into and through the grill 102 passes through the wick and along the wick 111, is humidified and flows upwardly through the baffles 105 to be discharged from the humidifier through a grill 112. The water is disinfected by ultraviolet light from a quartz tube 113 and the water passes upwardly along a helical ramp 114, i.e. in a helical path along and around the tube 113. From the disinfection unit 109, the water flows at 115 to the distributor.
The sterilized water which is not dispersed into the atmosphere in the air flow through the humidifier, returns to the tray 107 from which it is pumped again into the disinfection unit and again exposed to UV.
This application is a nonprovisional application corresponding to U.S. provisional application Ser. No. 60/573,982 filed 24 May 2004 and Ser. No. 60/576,776 filed 2 Jun. 2004.
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