DE3828026A1 - Device for the hygienic processing of liquids - Google Patents

Abstract

A device for the hygienic processing of especially drinking water, comprises an UV radiation source (13, 14) in a tubular body (10) of a UV-permeable material which extends through one or more regions (7, 8, 9) arranged one behind the other in the flow direction of the water in the device through which the water to be processed flows and which are separated from one another by activated carbon filters (5, 6). The water to be processed is therefore exposed each time to germicidal UV radiation before entry in the activated carbon filters (5, 6), and this eliminates the danger of excessive growth of organisms in the region of the activated carbon filters (5, 6). Before leaving the device the filtered water is exposed to another intensive germicidal irradiation in the tubular body (10). <IMAGE>

Description

The invention relates to a device for hygienic Treatment of liquids, consisting of one of the Filter device flowing through liquid to be treated for filtering out essentially particulate matter from the liquid. The invention relates in particular on the treatment of drinking water.

Activated carbon has special features due to its large filter area Advantages as a filter material, so that there are suspended matter let it filter out that with other filter materials not or insufficient from the liquid to be treated can be removed. On the other hand, activated carbon has the Disadvantage that bacteria have good growing conditions in it find so that a large increase in the filter bacteria that are harmful to health fear is what the use of this filter material for the Drinking water treatment is restricted or prevented. Though one could be due to the use of activated carbon increased bacterial concentration in drinking water counter that this after the filtration undergoes germicidal treatment, but would this requires a considerable amount of equipment in order to the high concentration of bacteria in the filtered To meet drinking water.

The invention is therefore based on the object To create device of the type mentioned, the with simple effort the use of microfilters,  in particular based on activated carbon, without the risk of enables increased bacterial growth.

This object is achieved by the features in characterizing part of claim 1 solved. Thereby, that the liquid to be treated before entering the filter germicidal radiation is exposed to the Filters essentially only killed bacteria, so that now microfilter made of activated carbon also for the Drinking water treatment can be used. The Filter device can with appropriate improvement Filter effectiveness two or more in the direction of flow Liquid include spaced filters, wherein between adjacent filters one of the liquid flowed through space is provided, in which the liquid germicidal radiation is exposed. The one filter escaping liquid is thus before entering the downstream filter again a germicidal treatment subject. The irradiation device preferably comprises a UV radiation source in the form of at least one UV lamp in a direction of flow Liquid extending into the device tubular Body made of UV-transmitting material can be arranged can. The tubular body can get rid of the liquid be filtered after their filtration, so that the One more liquid before exiting the device subjected to intensive UV radiation treatment. The Invention therefore enables a very compact treatment device for drinking water and others Liquids that readily act as a mobile unit can be trained.

The invention is based on the drawing, the one shows device constructed according to the invention in longitudinal section, described in more detail.  

In the preferred embodiment of the invention shown, the device comprises a substantially cylindrical housing 1 , which is closed at a lower end by a bottom wall 3 and at the opposite upper end by a cover 2 . The liquid to be treated is introduced into the interior of the device via a feed pipe 4 arranged in the cover 2 .

Furthermore, a tubular body 10 is held in the lid 2 , which extends into the device to near the bottom wall 3 . The tubular body 10 has a lower, open end 11 facing the bottom wall 3 in the interior of the device and an end region protruding through the cover 2 with an outlet pipe 12 provided there for the treated liquid.

In the tubular body 10 , a radiation source in the form of an elongated UV lamp 13 is arranged coaxially at a distance therefrom, which is hermetically sealed to the outside by a cladding tube 14 . The tubular body 10 as well as the cladding tube 14 consist of a material which is transparent to UV rays and which is preferably a quartz material. Near the upper outer end of the tubular body 10 , the UV lamp 13 can be held in a socket for connecting an electrical energy source.

As further shown, two filters 5 , 6 arranged at a distance from one another are provided, each of which extends between the inside of the housing 1 and the outside of the tubular body 10 . The filters 5 , 6 are preferably microfilters. Although other filter materials could be used, the preferred filter material for filters 5 , 6 is activated carbon.

The filters 5 , 6 divide the interior of the housing 1 in the embodiment of the invention shown into three separate areas or spaces 7 , 8 , 9 through which the liquid flows in succession. In particular, it is a first or upper space 7 which is connected to the feed pipe 4 and is provided in the housing 1 on the upstream side of the upper or first filter 5 . The liquid flows through a second or intermediate space 8 between the filters 5 and 6 after passing through the first filter 5 and before entering the second or lower filter 6 . After passing through the second filter 6, the liquid finally reaches a third or lower space 9 , which is in communication with the open lower or inlet end 11 of the tubular body 10 .

The tubular body 10 , which preferably passes through the filters 5 , 6 centrally and has the UV radiation source 13 , 14 arranged therein, inwardly also delimits the first and second spaces 7 and 8 through which the liquid flows and also projects partially into the third space 9 . The rooms 7 , 8 and 9 and thus the liquid therein are therefore exposed to the UV radiation emanating from the UV radiation source 13 , 14 . In addition, the cross-sectional areas adjacent to the tubular body 10 and the free surfaces of the filters 5 , 6 are also exposed to the UV radiation.

The liquid to be treated is fed via the feed pipe 4 into the first upstream space 7 , where it is subjected to a first germicidal treatment with UV radiation. The largely germ-free liquid then passes into the first filter 5 on the flow side, where a first separation of suspended matter from the liquid takes place. After exiting the filter 5 , the liquid in the second space 8 is again exposed to UV radiation before it reaches the downstream or second filter 6 , where the liquid is subsequently filtered. After passing through the filter 6 , the liquid flows through the lower or third space 9 and from there into the interior of the tubular body 10 . With the flow along the annular space 15 between the inside of the tubular body 10 and the outside of the shell 14 of the UV lamp 13 , the liquid is again subjected to an intensive germicidal aftertreatment before it leaves the device on the outlet pipe 12 for further use.

Although UV rays are preferred as the germicidal radiation, can, if desired, also be a source for another suitable radiation with a germicidal effect, e.g. a Electron radiation source, in particular in a device for the treatment of liquids other than drinking water be provided. Also, instead of the preferred one Activated carbon with another suitable filter material microporous structure can be used. Here is the number and formation of the filters arranged in the device changeable according to the respective use cases. The same applies to the number and arrangement of the Device provided UV lamps. The device is suitable for both large-scale use and mobile compact unit for use in, for example domestic areas or for consumers in small quantities treated liquid.

Claims (7)

1. Device for the hygienic treatment of liquids, in particular drinking water, consisting of a filter device through which the liquid to be treated flows for filtering out essentially particulate matter from the liquid, characterized by a device ( 10 , 13 , 14 ) for loading at least one upstream of the filter device ( 5 , 6 ) provided area and flowed through by the liquid ( 7 , 8 ) of the device with germicidal radiation. 2. Device according to claim 1, characterized in that the filter device ( 5 , 6 ) comprises activated carbon as a filter material. 3. Apparatus according to claim 1 or 2, characterized in that the irradiation device ( 10 , 13 , 14 ) comprises a UV radiation source. 4. The device according to claim 3, characterized in that the UV radiation source comprises at least one in a substantially in the flow direction extending tubular body ( 10 ) made of UV rays transparent material arranged UV lamps ( 13 , 14 ). 5. The device according to claim 4, characterized in that the tubular body ( 10 ) has an upstream side, with a downstream side of the filter device ( 5 , 6 ) and through which the liquid flows ( 9 ) communicating end ( 11 ) and an upstream side Has outlet end ( 12 ) for the treated liquid. 6. The device according to claim 4 or 5, characterized in that the tubular body ( 10 ) extends substantially along the central longitudinal axis of the device. 7. Device according to one of the preceding claims, characterized in that the filter device comprises two or more filters ( 5 , 6 ) spaced apart in the flow direction of the liquid.