Abstract:
A device ( 1 ) for drilling and tamping grounds is constituted by a tamping tip ( 1 A) rigidly connected to a shaft ( 3 ) which constitutes the connection to the end part of a battery of rods moved by a drilling machine, which gives it movement in a vertical direction and a rotation around its longitudinal axis. The battery of rods is inserted into a covering tube ( 14 ). Between the tamping tip ( 1 A) and the tube ( 14 ) a substantially cylindrical tamping element ( 9, 9   a ) is interposed, adapted to define a tamping diameter of the ground which forms the walls of the hole obtained by the device ( 1 ) at least equal to the diameter of the tube ( 14 ).

Description:
[0001]    This application claims benefit of Serial No. TO 2010 A 000507, filed 14 Jun. 2010 in Italy and which application is incorporated herein by reference. To the extent appropriate, a claim of priority is made to the above disclosed application. 
       BACKGROUND 
       [0002]    Subject of the invention is a device and method for drilling and making foundation poles with a ground-tamping technology, which permits the use of covering tubes for drilling polluted grounds. 
         [0003]    A growing problem consists in making foundation poles in polluted grounds, generally in areas for industrial use. 
         [0004]    The drilling and tamping technology, also known as “displacement”, is particularly used in presence of polluted grounds, as it permits to minimize the remaining material, that is the material exiting from the excavation necessary for making the pole. The works are so realized with the maximum respect of the environment and permit a relevant reduction of the costs, thanks to the fact that it is not necessary to dispose of great quantities of polluted ground, which necessarily requires special and very expensive treatments. 
         [0005]    According to the present art, various drilling and tamping devices are known. 
         [0006]    Patent EP-0228138 describes a drilling device which performs a tamping of the ground in a radial direction with respect to the drilling axis by means of a conical shaft which is provided with an elongated propeller extending up to the tip. 
         [0007]    Patent EP-0664373 instead describes a drilling device provided with a fuse-shaped roller, loosely mounted on an axis inclined with respect to the rods of the drilling battery, which thanks to the rotation of the rods rolls on the surface of the excavation by tamping the ground. 
         [0008]    It is always more frequently necessary to realize said drilling operation in presence of aquifer, which cannot be put into communication (for example when only the surface of one of them is polluted). Other times instead it can occur to drill in particularly unstable regions of ground (covering grounds) in which stabilization problems are encountered of the walls of the hole after the passage of the tool. It is therefore necessary to realize said drilling operation with the aid of a covering tube, which inhibits the collapse of the excavation but most of all inhibits the reflow/remix of waters coming from adjacent aquifers. This entails that the regions of ground already interested by the drilling operation remain totally insulated from the region in which the excavation is made, which generally is situated at the end region of the drilling device. 
         [0009]    It is also necessary that said covering tube can be uncoupled from the tamping tool anytime during the drilling operation. In some situations it is in fact required to make poles starting from a lower height with respect to the ground level. Without being able to leave in the hole the covering tube after drilling, it would be necessary to cast concrete for the entire depth reached and then subsequently destroy the excess portion. This would be a waste of time, resources and material—either to be supplied or to be disposed of—with a consequent increase of the production costs. 
         [0010]    Furthermore, when in presence of hard grounds or when particularly difficult layers must be crossed, the tamping tool is not able to advance and so it must be substituted with a digging tool to remove material, for example an auger or a bucket. In order to make such substitution, the tool has to be extracted from the hole by leaving the covering tube at the reached height. 
         [0011]    In some situations the required depth of excavation is greater than the length necessary for the covering tube. In these cases, once having reached the value corresponding to the length of the tube, the tool must be disengaged from the tube, leaving it in place, and then continue the drilling operation. In the lifting/casting phase the tool is required to couple with the tube once again, in order to extract it from the hole. 
         [0012]    Drilling devices are known, which permit the use of a covering tube. 
         [0013]    Patents EP-0235105 and EP-1402146 show percussion drilling devices in which a digging tip, connected with a battery of rods, is generally combined with a bottom-hole hammer, and is able to drag a covering tube. 
         [0014]    Such devices advance in the ground by the combined action of the percussion and the rotation. The debris produced in the region of the tip must be evacuated, as otherwise the tool would not be able to advance and they are conveyed at the surface, through the gap between the covering tube and the inner rod, by means of a fluid, generally water, for the perforation. This fluid is brought up to the perforating tip through channels internal to the tool. 
         [0015]    Both mentioned devices are provided with a cutting means positioned on the digging tip, which make a hole having a diameter sufficient to advance the covering tube in the ground. In order to be able to extract the battery of rods and the digging tip from the covering tube, the counterbore element must be able to take configuration in which its maximum encumbrance is smaller than the internal diameter of the tube. For this reason its shape is of the eccentric kind, so that it can take two main positions: the working one, corresponding to the maximum diameter, and the closing one, corresponding to the minimum diameter. 
         [0016]    In the operative phase, said digging head so has the function of enlarging the hole created by the drilling tip preceding it. This enlargement is realized with a removal of material, which is removed/detached from the walls of the excavation by means of digging/disrupting accessories. These means are usually teeth or bits. The first ones literally dig the ground, whereas the second ones breaks it up thanks to the high pressure generated with the contact between the same and the bit. 
         [0017]    In any case, when making a drilling operation with removal of material, it happens that the hole created has a greater diameter with respect to that of the tool which has made the drilling operation. The excavation and the subsequent removal of the ground produce a loosening of all surrounding material of the hole, and also thanks to the action of the drilling fluid injected from the central duct, they create such a crumbling that an excavated hole is obtained, having much greater dimensions than those of the tool itself. 
         [0018]    It is therefore evident that a gap is generated between the covering tube and the walls of the excavation realized by the reamer element. It is consequently impossible to separate the high regions of the battery from those of the excavation. During the crossing of an aquifer, water would have access to all other ground layers which are placed above and below it, and which are involved in the drilling operation. The same drilling fluid can act as a contaminant means. Therefore this kind of devices cannot be used in polluted grounds. 
         [0019]    Furthermore, the field of application of the preceding patents being of the known art is that of the drilling operation with a bottom-hole hammer, which involves the excavation in particularly hard and rocky grounds, which therefore are generally stable. The presence of the tube is uniquely reserved to the first meters of excavation in which generally what is in jargon called “covering ground” is present, characterized by an incoherent matrix which tends to close upon the hole itself. 
         [0020]    When this matrix has gone through, the excavation reaches rocky grounds and the tip must be adequately dimensioned in order to dig a hole much greater than the tube, so that it can insist on the bedrock without running aground. 
       SUMMARY 
       [0021]    Aim of the present invention is to realize a device for drilling and tamping grounds for making foundation poles, which solves the previously explained problems. 
         [0022]    For reaching these and other aims which will be better comprised in the following, the invention proposes to realize a drilling device for making poles having a ground-tamping technology and to a method for executing such drilling operation. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0023]    The equipment according to the invention will be now described, in three embodiments in any case non limitative, with reference to the annexed drawings, in which: 
           [0024]      FIG. 1  is a longitudinal cross-section of a first embodiment of the device according to the invention, with the tamping roller in an open condition; 
           [0025]      FIG. 2  is the cross-section of the device of  FIG. 1  according to the plan B-B; 
           [0026]      FIG. 3  is the cross-section of the device of  FIG. 1  according to the plan C-C; 
           [0027]      FIG. 4  is the three-dimensional view of the coupling system of the covering tube of the device in a coupling condition; 
           [0028]      FIG. 5  is the longitudinal cross-section of the device according to the invention as in  FIG. 1  but with the tamping roller in a closed condition; 
           [0029]      FIG. 6  is the cross-section of the device of  FIG. 5  according to the plan D-D; 
           [0030]      FIG. 7  is the cross-section of the device of  FIG. 5  according to the plan E-E; 
           [0031]      FIG. 8  is the three-dimensional view of the coupling system of the covering tube of the device in a uncoupling condition; 
           [0032]      FIG. 9  is the longitudinal cross-section in a second embodiment of the device according to the invention with the tamping roller in an open condition; 
           [0033]      FIG. 10  is the cross-section of the device of  FIG. 9  according to the plan F-F; 
           [0034]      FIG. 11  is the cross-section of the device according to the invention as in  FIG. 9  but with the tamping roller in a closed condition; 
           [0035]      FIG. 12  is the cross-section of the device of  FIG. 9  according to the plan G-G; 
           [0036]      FIG. 13  is the longitudinal cross-section of the device of  FIG. 9  with the battery of rods, the tamping device and the tamping roller which are removed, at lifting, from the covering tube; 
           [0037]      FIG. 14  is the side view of the device of  FIG. 9  which shows the excavation diameters of the various parts; 
           [0038]      FIG. 15  is the side view of a third simplified embodiment of the device; 
           [0039]      FIG. 16  shows on the left the side view of the device of  FIG. 15  with the tube completely driven into the ground and on the right the side view of the device of  FIG. 15  with the drilling device advancing with respect to the covering tube. 
       
    
    
     DETAILED DESCRIPTION 
       [0040]    With reference to the first embodiment shown in  FIGS. 1-8  drilling device  1  is made by a tamping tip  1 A rigidly connected to a main support  2  which contains at its top an inverted truncated conical element  2   a  which in turn is connected to a shaft  3  which makes the connection with the end part of a battery of rods (not shown). 
         [0041]    Said battery of rods is moved by a drilling machine, which exerts on it a movement in a vertical direction (by pulling/pushing) and a rotation (torque). The device is further provided with a tamping roller  9  provided for enlarging the hole in the ground, so permitting the advancement of covering tube  14 . It is further provided with a blocking system  12 , 13 , 14  ( FIGS. 4 and 8 ) adapted for driving covering tube  14  into the hole in the ground, or to uncouple it from tool  1 . 
         [0042]    The connection between main support  2  and shaft  3  is not rigid. They can make a mutual rotation of limited entity, defined by two limit positions, made by the interference of ridge  5  integral with main support  2 , with the two matching points  6 , integral with shaft  3 . 
         [0043]    Main support  2  has prismatic guides in which pushers  7  are forced to slide radially. Said pushers  7  are further in contact with shaft  3 , precisely at the region having eccentric profile  4 . During said mutual rotation main support  2  drives pushers  7 . Under the pushing action of the eccentric profile acting as a cam, they make a movement in a radial direction. Pushers  7  are provided with rollers  8  which are in a direct contact with tamping roller  9 . By moving laterally, two rollers  8  force tamping roller  9  to move from a position coaxial with the battery to an offset position. Tamping roller  9  is mounted idle on rollers  8  in order to maintain the frictions limited and realize the tamping of the ground, so minimizing the requests of torque at the machine tool. 
         [0044]    In particular, with reference to  FIGS. 1-4 , during the descent and tamping phase the drilling machine exerts on the battery of rods a clockwise rotation. Tamping tip  1   a  advances into the ground, so creating a hole having a diameter equal to the maximum one of the tip. 
         [0045]    Thanks to its rotation, once ridge  5  has come in contact with one of the two matching points  6 , shaft  3  drives in rotation main support  2 . Rollers  8  act on the internal portion of tamping roller  9 , by keeping it in a position in which its axis AT is offset with respect to axis AU of tool  1 . The clockwise rotation of the rods forces tamping roller  9  to place or maintain itself in an eccentric configuration. 
         [0046]    Axis AT of tamping roller  9 , which is defined by the position of pushers  7 , is forced to rotate together with the whole tamping tool  1 , under the action of the battery of rods, around axis AU. During this movement tamping roller  9  comes in contact, on its external part, with the surrounding ground. The friction generated makes tamping roller to begin to rotate, rolling on rollers  8 , around its own axis AT. 
         [0047]    Ultimately, tamping roller  9  makes a movement which is the composition of the two preceding movements, that is the rolling on the walls of hole  18 . This movement generates a lower friction component which will require that the drilling tooling exert a lower torque for advancing during the tamping. 
         [0048]    At the same time, covering tube  14  is driven by main support  2  through a joint realized by the contact between ridges  12  which come in connection with relative connections  13  of covering tube  14  (see  FIG. 4 ). 
         [0049]    Tamping roller  9 , which is in its working/open configuration, rolls and pushes/compresses the ground by forcing hole  18  to take a diameter equal to that of rolling. As can be seen from  FIG. 3 , this rolling diameter is exactly equal to the external one of covering tube  14 . In this way a hole is generated which has the precise dimensions of covering tube  14 . 
         [0050]    Differently from the teeth and the bits, the tamping roller does not remove the ground. The walls of the excavation take a smooth and uniform appearance which permits to precisely adhere to the covering tube. 
         [0051]    The ground is tamped and forced by the tamping roller to take a certain diameter and once the drilling/stabilizing part of the tool has passed, it always shows a phenomenon of relaxation. That is, the ground tends to “elastically” return to a less compressed configuration and the walls of the excavation move against the tube. This phenomenon, typical only of the grounds which can be displaced/tamped (and not of those for which other drilling techniques are used), further facilitates the adhesion of the ground to the external surface of the covering tube. In this way no empty spaces remain between hole and pipe. Therefore no possible passages for the water are created, which would tend to ascend along the excavation. 
         [0052]    In an axial direction, tamping roller  9  is kept in place by matching dedicated areas  10  which come in contact with respective grooves  11  obtained in main support  2 . These contact areas are further provided with suitable sealing  2   b  which avoid the reflux of a liquid inside the covering tube. 
         [0053]    With reference to  FIGS. 5-8 , tool  1  is represented in its configuration of a minimum diameter. Starting from the previously shown configuration, the battery of rods is rotated in a anticlockwise direction. The surrounding ground, thanks to the friction, tends to retain tamping device  1 A. Then a relative counter-rotation occurs between shaft  3  and main support  2  which is integral with tamping device  1 A. Eccentric  4  withdraws pushers  7  and permits to tamping roller  9  to realign itself with axis AU, by taking once again a minimum diameter which is lower than the internal diameter of covering tube  14 . The anticlockwise-rotation of the rods so forces tamping roller  9  to be placed and/or kept in a configuration of minimum encumbrance, centered and aligned with drilling device  1 . The same counter-rotation disengages covering tube  14  from main support  2  (see  FIG. 8 ). 
         [0054]    From this point onwards it is possible to extract tool  1  from the hole passing through covering tube  14  which remains in place in the ground. 
         [0055]    Once having tool  1  been separated from covering tube  14 , it is also possible to continue the drilling operation by leaving the tube at the reached height. In the subsequent phase of ascent it will be possible to couple the tube again and proceed with its extraction, or allow it to work and remove the tool from the hole. In order to complete the construction of the foundation element, during the ascent phase the hole is filled with a cast concrete. Said concrete is pumped from the inside of the battery of rods and is left to come out of an aperture placed on the tip of the tamping device. 
         [0056]    In all these cases the opening/closing operations of tamping roller  9  and the coupling/uncoupling of covering tube  14  are respectively obtained by rotations of the battery of rods, in a clockwise and anticlockwise direction, respectively. 
         [0057]    In  FIGS. 9-10  a second variant of the drilling device is shown. In this version the tamping roller produces an enlargement of the hole up to a diameter greater than that of the covering tube (portion D in  FIG. 9 ). This version is used when the ground to be drilled is characterized by a strong slackening, once the tamping device has gone through. In this case the ground which tends to close the hole again would exert on the covering tube a very high pressure. The great frictions would greatly increase the torque required from the machine tool in order to put in rotation the battery of rods, integral with the covering tube. 
         [0058]    It is evident that more versions of the tamping roller can be realized, by varying its diameter in order to adjust from time to time the drilling tool to the kind of ground to be tamped. 
         [0059]    In  FIGS. 11-12  the same drilling device of the  FIGS. 9-10  is shown in a configuration with a minimum diameter, with the tamping roller aligned with the drilling axis. 
         [0060]    In  FIG. 13  tool  1  of  FIG. 9  is represented inside covering tube  14  in a possible phase of ascent in which the tube is left running, or it is recovered in subsequent phases. 
         [0061]    In  FIG. 14  drilling tool  1  is represented advancing with respect to covering tube  14 , in order to make the drilling operation at a lower height than that of the tube. 
         [0062]    In  FIGS. 15 and 16  a further variant of the device is illustrated, which can be used when the polluted layers are located at the surface. 
         [0063]    This version is greatly simplified with respect to the previous ones. The tamping device makes a hole having a diameter equal or greater than that of covering tube  14 , without the aid of an enlarging tamping roller, as the tamping function will be made from cylindrical portion  9   a  having a diameter equal or slightly greater than that of tube  14 . In this way the drilling operation is performed, so that the entire cross-section of the hole always remains occupied with the tamping device. Therefore no free space areas are present, which are created around the tamping roller of the previous versions due to its eccentric position. So this version guarantees a maximum degree of tightness. 
         [0064]    First rod  15  of the battery is provided with fins  16  which, by engaging at matching points  17 , drive covering tube  14  into the ground, by transmitting a pull/push action and torque to it. Once tube  14  has been totally driven into the ground (see  FIG. 16  on the left) the joint is freed between the first rod and the covering tube with a simple counter-rotation of the battery. It is then possible to continue the drilling operation up to the desired height, leaving covering tube  14  still (see  FIG. 16  on the right). Matching points  18  permit to keep the battery of rods centered in the covering tube once they penetrate inside the tube. 
         [0065]    In the phase of ascent, not being it possible to pass through the tube, it will be recovered from the battery of rods and extracted at the same time with it. The danger of pollution is cancelled due to the fact that the hole is filled with concrete at the same time of the extraction of the tube. 
         [0066]    The operations of coupling the covering tube are simplified, as the joint region is proximate to the ground level and so it is easily visible by the operator. 
         [0067]    On the contrary, this version of the device does not permit to leave the tube in place and only extract the tool. As a consequence, the covering tube cannot be coupled and it will have a fixed length at the beginning of the drilling operation. 
         [0068]    The invention described permits to make foundation poles with a tamping technology in combination with a covering tube. So it can be used in presence of an aquifer, of inconsistent and polluted grounds, by greatly increasing their flexibility in use and guaranteeing that the healthy grounds are not contaminated by the polluted grounds. 
         [0069]    It is further possible to make tamping poles starting from a height lower than the ground level. To this end, it is sufficient to interrupt the cast concrete in the excavation at the desired depth, before the ground level, by knowing that the walls of the excavation cannot collapse thanks to the presence of the covering tube. 
         [0070]    The same covering tube is not provided with digging elements, but it is purely driven up to the depth required by the central battery of rods. So it can also be left in place as an armature of the pole. 
         [0071]    The drilling is made possible in hard and difficult layers with the same battery, as the substitution of the tamping tool with tools with a material removal is rapid. 
         [0072]    The “idle” tamping roller permits to obtain the maximum diameter of excavation through a modelling or “rolling” of the ground. This makes that no sliding is generated between the ground of the walls of the excavation and the tamping roller, so minimizing the frictions. This greatly reduces the requests of power from the machine tool, lowering its consumptions and facilitating the drilling operation, which can be realized with machine tools of smaller size. The wear of the parts is reduced, extending the tool&#39;s life and reducing the maintenance costs.