DE2835250A1 - Water well for filtered drinking water - has central suction pipe, pump, and filter held below water by plunger pipe - Google Patents

Abstract

An external shaft wall screens the well shaft from the encompassing earth, and permits entry of groundwater through apertures, in the well supplying drinking water. The installation has a filter for cleaning, suction pipe and pump for water conveyance, and also a layer of gravel on the well shaft bottom. A plunger pipe (6) with closed walling is inserted in the well shaft (4), holding the filter (10) submerged below water level in its open bottom end (8). The suction pipe (24) runs inside this pipe to remove water from above, as far as a position in front of the filter, which can comprise a series of two individual filters. This permits simple extraction of filtered drinking water.

Description

Drinking water fountain

Description The invention relates to a drinking water fountain an outer shaft wall that shields the well shaft from the surrounding soil and allows groundwater to enter the well shaft through openings.

Such wells are well known and are in a borehole used, which extends a predetermined distance below the water table. the The pump is generally located in the suction line between the upper one Well foundation and the reservoir into which the well water is pumped. Naturally occurring well water always contains minerals in addition to minerals also different amounts of dissolved organic impurities of natural origin In addition, there is an increasing amount of dissolved impurities and organic compounds from settlements, agriculture and industry. These substances can odor and Impair the taste of the water and may have a toxic effect exercise or serve as nutrients for microorganisms. So you have to get out of the Well water can be removed. Contaminants of this type include neber, pesticides (Herbicides, fungicides, insecticides) the detergents and various intermediate products the chemical industry, such as nitro compounds, chlorine compounds. Waste products from various branches of industry as well as EohlenZ hydrogens that may be can have a chewing effect.

To produce the required drinking quality, the well water must therefore on the way to the reservoir pass through suitable filters that are in accordance with the state of the art Technology placed between the pump and the reservoir on the earth's surface and e.g.

are designed as an activated carbon filter. In addition, the between Pump and reservoir arranged activated carbon filter against contamination, destruction or damage are particularly protected by external influences, whereby additional effort is required.

In contrast, the object of the invention is to provide a drinking water fountain indicate the particularly simple and energy-saving extraction of filtered Allows drinking-quality water, and which is simple and inexpensive to set up is.

This task is done with a drinking water fountain with an outer Shaft wall that shields the well shaft from the surrounding soil and groundwater can enter through openings in the well shaft, solved according to the invention by that a filter for cleaning, a suction pipe and a pump for pumping the water are provided, as well as a fill of gravel on the bottom of the well shaft, wherein a first immersion pipe with a closed pipe wall is inserted into the well shaft is and in its lower open end the filter is submerged under the water level holds, and that the suction pipe within the first Tal7ehrohrs for water withdrawal from runs up to in front of the filter.

The advantages of the invention are in particular that with each Withdrawal of drinking water the groundwater pushes through the filter under its own pressure and only then is pumped out through the suction pipe, so that only the for promote the filtered water while energy required is necessary for no energy is required for the water to pass through the filter. About that In addition, the filter can be tm the well shaft without any additional expenditure protected against external influences. Because the filtered water is inside the dip tube there is a certain supply above the filter, and that after pumping Otherwise there is no filtration required, the filtered water can be removed from the Immersion tube also with the simplest pump or Funding promoted which is particularly extreme when the well is used in developing countries is advantageous where often suitable energy sources for operating motor-driven Pumps are not available.

According to a particularly preferred embodiment of the invention the first immersion pipe has an overall length that is only slightly shorter than that of the shaft wall from the upper well foundation to close to the gravel fill on the floor of the well shaft, whereby the storage column of purified water has the maximum size. Preferred is also a second immersion tube with a closed tube wall and reduced cross-section inserted into the first dip tube. The second dip tube contains in its lower open end of a second filter held by the dip tube below the water level is. The suction tube is then up to the second immersion tube for water extraction just above the second filter. With this measure it is possible the first filter with a relatively large diameter and a second higher quality filter Downstream filters of smaller cross-section and lower throughput, so that very high quality water can now be taken from the second immersion tube can. The water is also passed through the second filter by the pressure of the water column pushed through without the need for a special source of energy.

If the water quality is to be further increased, can a third or fourth immersion tube in the already inserted second or third Insert immersion tube. That. third and the other possible dip tubes have alAe essentially one corresponding to the first and second immersion tube Structure with one filter each in the lower open end and with closed pipe walls.

Preferably one of the filters, e.g. the filter in the second immersion tube as a series arrangement of two spaced apart filters to ensure interchangeability to increase the individual filter.

According to a further embodiment of the invention, the first filter insert a prefilter in the lower end of the first immersion tube, which essentially a mechanical filtration of carbon dioxide and dirt particles undertakes. The first, second and subsequent filters are preferred made of activated carbon filters, which due to their high absorption forces are a special enable good filtration and disinfection.

The shaft wall and the dip tubes preferably have a circular cross-section and are inserted concentrically into one another.

The shaft wall, like the immersion pipes, can be made from a suitable Metal or plastic are made and together with the dip tubes and the suction tube be designed as a unit.

The shaft wall can also have an outwardly pointing at the upper end Flange for supporting and fastening to the next larger immersion pipe or the shaft wall to have. The flanges can also be used to close the well.

In the following an embodiment of the invention is based on the Drawing explained in more detail.

The figure shows a cross section through an embodiment of the invention Drinking water well with two inserted immersion pipes. The fountain turns into a Hole, e.g. a Benoto hole used, which extends a predetermined distance extends below the water table.

The shaft wall 1 shields the well shaft 4 from the surrounding area Soil and has openings through which the groundwater enters the well shaft 4 can occur. In the lower area of the shaft 4, a bed of gravel 2 is provided, to carry out a first coarse filtration of the groundwater, which coarser Particles remain trapped in the gravel. A first, e.g. circular immersion tube 6 used with a closed tube wall and carries in his lower open end 8, the filter 10, which is designed as a used charcoal filter. The dip tube 6 runs from the concrete well foundation 25, to which the Shaft wall 1 starts immediately, until just before the sand fill 2 and holds the filter 10 below the water level. In the first dip tube 6 is concentric a likewise circular second immersion tube 14 is used, which at its lower open end 16 has a second filter composed of two individual filters 18, 18 ', which also contains activated carbon and should have a high adsorption quality, to ensure the desired drinking quality of the water. The second tl; chrok? R 14 is from the upper concrete foundation 26 of the well to just before the first filter 10 guided and has a closed pipe wall.

The suction pipe 24 extends through an upper cover 30, the can also be provided as a mounting flange for the second suction pipe 14, from at the top within the second immersion tube 14 until just before the upper individual filter 181. The suction pipe takes water of the desired quality from the one above the second Filter 18 1 & 'located water reservoir 22, the conveyance e.g.

Can be carried out by a pump 32 to a reservoir or the like.

In the example shown, the shaft wall 1 is set immediately below of the concrete foundation 26 of the drinking water well. The first dip tube 6 has at its upper open end a flange 28 extending outwardly and inwardly of the Pipe wall extends and on the one hand a support and fastening on the concrete foundation 26 enables and on the other hand closes the first immersion tube 6 inwardly to the extent that that just the passage for the second immersion tube 14 is still available. The second Dip tube 14 also has a mounting flange 30 at its upper end, its outwardly directed end to rest and attach to the flange 28 of the first Dip tube 6 is used, and its inwardly directed area is the second dip tube 14 essentially closes and only the passage opening required for the suction pipe 24 owns.

In operation, that which passes through the perforated shaft wall 1 is Groundwater is pre-filtered in the gravel fill 2 and is then found in the well shaft 4th

The water enters from well shaft 4 due to the pressure of the water saddles through the first folder 10 into the second duct 12, which is located above the filter 10 located in the first immersion tube 6. From this second shaft 12 the water enters already partially cleaned state through the series connection of individual filters 18 and 18 'through into the third duct 23, which is located above the filter arrangement within the second immersion tube lies. In the third shaft 23 there is drinking water of high quality which can be taken from the suction pipe 24.

These are used to assemble the well or the individual immersion pipes gradually pushed down into the well shaft against the groundwater pressure and then beSestigi- via their mounting flanges 28, 30 on the concrete foundation 26.

For maintenance or replacement of filters, preferably as activated carbon filters are formed, the individual immersion tubes must be removed before the above the respective filter 10 or 18 'standing water column is pumped out.

L e r s e i t e

Claims (9)

Claims: 1. Drinking water well with an outer shaft wall that shields the well shaft from the surrounding soil and allows groundwater to pass through Can enter openings in the well shaft, characterized in that a Filters for cleaning, a suction pipe and a pump for pumping the water are provided are, as well as / gravel bed on the floor of the well shaft, with a first dip tube (6) is inserted with the pipe wall closed in the well shaft (4) and in his lower open end (8) keeps the filter (10) submerged below the water level, and the suction pipe (24) within the first immersion pipe (6) for withdrawing water from runs up to in front of the filter (10). 2. Drinking water fountain according to claim 1, characterized in that the first immersion tube (6) with a slightly shortened compared to the shaft wall (1) Length from the upper well foundation (26) to close to the gravel bed (2) on the The bottom of the well shaft (4) is sufficient. 3. Drinking water fountain according to claim 1 or 2, characterized in that that a second immersion tube (14) with a closed tube wall and reduced cross-section is inserted into the first immersion tube (6) and in its lower open end (16) a second filter (18) below the water level up to in front of the filter (10) in the first Immersion tube (14) keeps submerged, and that the suction tube (24) within the second Immersion tube (14) for water extraction from above until before the second filter (18) runs. 4. drinking water fountain according to claim 3, characterized in that to increase the water quality at least a third immersion tube with a closed Pipe wall and with a reduced cross-section compared to the second immersion pipe (14) in the second dip tube (14) is inserted and at its lower open end keeps the third filter submerged below the water level, and that the suction tube (24) inside the third immersion tube for water extraction from above to in front of the third Filter is running. 5. Trinlowasserbrunnen according to one of the preceding claims, as through characterized in that at least one of the filters (10, 18) as a series arrangement of two spaced individual filter (18,18 ') is constructed. 6. Drinking water fountain according to one of the preceding claims, characterized characterized in that in front of the first filter (10) in the lower end of the first immersion tube (6) a pre-filter for mechanical filtration of suspended solids etc. is connected upstream is. 7. Drinking water fountain according to one of the preceding claims, d a d It is noted that the filters (10, 18, 18 ') contain activated carbon 8th. Drinking water fountain according to one of the preceding claims, characterized in that that the shaft wall (1) and the dip tubes (6,14) have a circular cross-section and are inserted concentrically into one another. 9. TrinFvasserbrunnen according to one of the preceding claims, characterized characterized in that the shaft wall (1) has a fastening flange at the upper end for anchoring to the well foundation (26), and that each dip tube (6,14) at the upper end an outwardly facing flange (28,30) for support and fastening on the flange of the next larger immersion pipe or the shaft wall.