Patent ID: 7950465

Claim:
A system of de-watering boreholes by means of alternating cycles of aspiration and expulsion based on the principle of pneumatic displacement to extract water from blast-holes, comprising: a double hose to be introduced partly into a borehole until the double hose reaches a bottom of the borehole, the double hose including an outer hose of a first diameter and an inner hose of a second smaller diameter positioned within said outer hose and spaced inwardly from the outer hose by an annular space, both the first and second hoses being flexible along lengths thereof to enable the hoses to adapt to deviations present in the borehole while having sufficient cross-sectional rigidity to enable the double hose to withstand cycles of aspiration and pressure applied to the system without collapsing or bursting, the double hose being adapted to be uncoiled to reach a full depth of the borehole, the outer hose having an outer diameter less than a diameter of the borehole to provide an annular clearance between walls of the borehole and an outer surface of said outer hose; an upper closing element connected to an upper end of the double hose that is above a surface having the borehole, and located outside of the borehole, the closing element having two outlets which permit entry and exit of air and water, depending on a timing and type of a cycle that determines how one said outlet is connected to the inner tube and to an external hose; and a lower closing element having an external diameter not greater than a diameter of the outer hose, and attached to the double hose at a lower end thereof that is adapted to travel to the bottom of the borehole, the lower closing element including a foot valve, a filter, and a protective element to serve as a battering ram, wherein, within an inner volume of said double hose, a significant level of vacuum is created in order to ensure that a maximum amount of additional water that would equate to a natural level of water in the borehole is trapped within the double hose, during an aspiration phase, and immediately after, supplying compressed air to one of: an inner volume defined by the annular space between the outer hose and the inner hose, and the inner hose, to force the water, respectively, through one of: the inner hose, and inner volume defined by the annular space between the outer hose and the inner hose.