FI75632C - BRUNNSRESERVOAR. TRANSFERRED PAEIVAEMAEAERAE-FOERSKJUTET DATUM PL 14 ç 12.03.85. - Google Patents

Description

To the mining hall 75632

The present invention relates to a completely new type of mining tank in which e.g. the well water is able to effectively cross the e-5 from the adverse effects of the soil deposits immediately surrounding the well tank pit.

In previously known well solutions, the well has been formed by be-10 tonic rings extending to the ground from the bottom of the well pit. It has still been advisable (Guide "Water and waste management of holiday homes" published by the Ministry of the Interior and the Water Board) to insulate the outside of the well rings from the ve-interior section with sealed clay, as a result of which water has only entered the well through the bottom. It is known from practice 15 cases that no water has entered the clay-insulated mining tank in the first place. It is also known that when a low-water well is dredged, the recess has hit such a coarse layer that the water has escaped through it completely. One problem has in many places also been the availability of clay cal-20. As a whole, both the quantity and quality of the well water have been too dependent on the quality of the soil types in which the well has hit.

With the mining tank according to the invention, it is possible to reduce the above-mentioned disadvantages to the smallest possible size pit in any type of soil deposits. When water is thus carefully preserved, it is available for even a large temporary need, even when the flow of groundwater in the soil layers is low.

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The characteristic features of the mining tank according to the invention are set out in more detail in the appended claims. The same things can be seen from the accompanying drawing defects. Figures 1 and 2 show comparative mining tank solutions according to the prior art and the invention. Of these, Fig. 1 shows a vertical section of a mining tank solution according to the prior art, 2,75632 Fig. 2 likewise shows a vertical section of a mining tank according to the invention, Fig. 3 shows a cross-section of a base plate, already Fig. 4 in installation condition of a mining tank bag.

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According to Figure 1, a well according to the prior art is formed of rings 2 extending from the bottom of the well 1 to the ground surface. With the exception of the lower part of the mining tank, the tank is insulated with sealed clay. A 30-50 cm strong layer of fine gravel or coarse sand 4 is placed on the shoulder of the tank as a filter, which filter material extends beyond the tires some distance above the bottom level of the tank. in this case, if the bottom of the well has hit a fine-grained deposit where the flow is low, no water will be available from the well after temporary use, when there has been little stored water and more will come slowly.

Figure 2, in turn, shows a mining tank solution according to the invention, in which the well is correspondingly formed of conventional concrete rings 5, which in this case, however, are stacked on a base plate 6 belonging to the mining tank bag 7. This base plate 6 is attached to the container bag foil 7 above it *: and is made slightly thicker from the center above the adjacent circumference of this base plate B and provided with water grooves extending from the outer circumference 25 to the center. Furthermore, the base plate is provided with one or more plug-in holes. The plugs are opened at or when; the knife has ceased to come above the edges of the tank and has run out of the tank. When the space between the tank bags 7 and the bellows rings 5 is filled with a highly water-permeable filter material, it flies the bag film tightly against the wall of the well pit, so that water drains from Once the ve-35 si has been placed in a waterproof tank, even larger quantities are available when the temporary need sometimes requires it, because the grain size of the soil layers is not now ·; get in the way.

3,75632

With regard to the structure of the bottom of the well, it is advantageous to place a layer of gravel or sand almost half a meter thick under the bottom plate 6, which acts as a filtration layer when the bottom plug has to be opened and thus let water into the well 5 through the bottom.

The construction of the well itself takes place by digging a well, the depth of which is determined in such a way that a water tank section of the desired size comes below the level of the water vessels detected during the excavation phase. If the bottom of the well is unsuitable for the filtration layer, the well is dug deeper enough that the necessary layer of filter material can be placed in it. Next, the bottom of the well pit is flattened and it is checked that the walls of the well pit do not have sharp edges at the tank level that could s puncture the tank bag. The tank bag with its bottom plates is then lowered in the condition according to Fig. 4 by means of line ropes Θ attached to the top edge of the bag to the bottom of the well pit and fitted against the well pit edges 20 so that the well rings can be lowered onto the bottom plate. It is now possible to lower the rings and their circumferential infills as required by the current situation and to cut off the tar-free top of the bag. With the water tank part of the well thus completed, the construction of the well is continued according to the state of the art.

The well according to the invention operates in the following way: When the tank bag is cut below the level of the water vessels found in connection with the excavation, water enters the well above its watertight insulated part of the tank. After entering the filter layer around the well ring, water flows from the along the grooves on the base plate on the inside of the tires. When the bottom plug is then closed, not a drop of water from the well enters the 75632 4 wefts, even if coarse soil layers extend into or near the mine tank. Similarly, no mineral or similar particles enter the well water, which may be present in the soil layers immediately surrounding the well reservoir and which contaminate the quality of the well water in one way or another. In this way, the preservation and pollution protection performance of such a mine tank can be considered as the highest possible within the current knowledge, regardless of whether the well hits any type of soil layers. According to the state-of-the-art technology, the well only descends when and if no more water enters the well above the tank level and the bottom plug must be opened.

The advantages of the well according to the invention are greatest when a) the well hits a fine soil with a relatively small amount of groundwater and flow, b) dry periods with little water in the soil and c) the soil layers are thin and sometimes rough in roughness. even varied.

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It should further be noted that only a preferred embodiment of the well solution according to the invention has been described above, without the intention of limiting the invention as set out in the appended claims, which alone determine the scope and extent of the invention. Thus, for example, the container bag or the base plate may be of any material well suited for the purposes, but preferably of plastic.

Claims (7)

A mining tank, which consists in part of conventional well rings 5 or the like, characterized in that a tank bag 7 is arranged in the well pit some distance from the well rings 5, from which water can flow from below the well rings to the well itself. Mining tank according to claim 1, characterized in that the tank bag 7 is connected at its lower edge to the lower surface of the base plate 6, the base plate 6 being grooved in its upper surface so that water can flow along these grooves into the well, even if the well rings 5 rest on the base plate 6. A mining tank according to claim 1, characterized in that the space between the tank bag 7 and the well rings 5 is filled with fine gravel or coarse sand or other suitable filtration material 11a. 20 A mining tank according to claim 1, characterized in that the upper edge of the tank bag 7 is slightly lower than the height level of the water vessels leading to the well. A mining tank according to claim 2, characterized in that the bottom plate 6 has one or more plug-holes which are opened at the stage when or if water has to be let into the well through the bottom. Mining tank according to Claim 2, characterized in that there is a thick layer of filterable material, for example fine-grained gravel or coarse sand, under the base plate 7. A mining tank according to claim 1, characterized in that the circumference of the well rings is filled almost to the ground with sand or gravel or the like, but is insulated from the surface with a substantially horizontal water-impermeable material.