FR3005681A1 - TARIERE - Google Patents

Abstract

This auger (1) comprises an extendible mast (4), a drilling tool (5) connected to this mast, and a means (6) for rotating the mast and the tool. According to the invention, it also comprises: - a cutter evacuation collector-evacuation member (7) slidably engaged on the mast (4), comprising an opening having a radial extension relative to the mast (4), which allows the entering cuttings in the body (7) collector-evacuator; this member (7) is movable along the mast (4), between a position of immediate proximity to the tool (5), in which it is wedged in rotation relative to this tool and wherein said inlet opening of the debris is immediately behind the upper portion of the tool (5), and a position away from the tool (5); and a link such as a rope, a cable or a chain, connected to said member (7), the length of which is such as to allow this member to move between said position of immediate proximity with the tool (5) and said position away from the tool (5).

Description

The present invention relates to an auger for drilling a hole in a ground, in particular for developing a well reaching the water table or an underground watercourse. This hole can also be used to carry out a coring sample of the soil, for example, or to drill holes loosening the ground, more or less deep, and intended to be plugged to implement planting rooting reforestation plants deep in dry areas. An auger comprises a tool for drilling the earth, in the form of a worm, an extendable mast connected to this tool, and a means for exerting a torque on the mast to drive the tool in rotation . The auger may be manually operated, in which case the mast is connected to a transverse bar forming a handle of said torque, or be motor-driven. This type of auger is suitable for drilling holes of small sections, for example intended to allow the planting of piles, but is not suitable for drilling holes of large section and length, making it possible to build wells. Indeed, the use of such an auger to drill such a hole involves frequently out the auger hole to evacuate the cuttings, which is long and tedious when the hole is a little shallow. In addition, the presence of pebbles in the ground to be drilled is at best a hindrance to drilling, at worst an insurmountable obstacle to this drilling. In addition, in case of very loose soil or mud at depth, the tool does not pierce the ground, turning empty; on the contrary, in case of compact soil or sticky soil, the tool is screwed into the ground without breaking up or taking off clods of earth, which can lead to an impossibility of removing the auger from the hole. The invention aims to provide an auger remedies these drawbacks, and 25 in particular able to drill holes of large section and length, to develop a well. Its main objective is therefore to provide an auger that must not be frequently removed from the hole in order to evacuate the cuttings. Another object of the invention is to provide an auger for drilling such a hole notwithstanding the presence of pebbles in the soil. A further object of the invention is to provide an auger not likely to be removed from the hole in case of compact soil or sticky soil.

The auger concerned comprises, in a manner known per se, an extendable mast, a drilling tool connected to this mast, and a means for rotating the mast and the tool. According to the invention, the auger also comprises: a collector-cutter evacuator member slidably engaged on the mast, comprising an opening having a radial extension relative to the mast, which allows the cuttings to enter the collecting member; evacuator; this collector-evacuator member is movable along the mast, between a position of immediate proximity with the tool, in which it is wedged in rotation with respect to this tool and in which the inlet opening of the cuttings is immediately backwards. the upper portion of the tool, and a position away from the tool; and a link such as a rope, a cable or a chain connected to said collecting-evacuating member, the length of which is such as to enable this collecting-evacuating member to move between said position of immediate proximity with the tool and said position of removal relative to the tool. This collector-evacuator member is thus movable back and forth along the mast; in said position of immediate proximity with the tool, it makes it possible to collect the cuttings generated by the tool, this collection being done in the best conditions because of the immediate proximity of its entrance opening of the cuttings with the upper portion of the tool and because of its rotation at the same time as the tool; when it is in said position away from the tool, in which, in practice, it is on the surface, it allows to easily remove the cuttings. The rotational wedging of the collector-evacuator member could be done only in said immediate proximity position; according to a preferred embodiment of the invention, however, the mast has a non-circular cross section, for example square, over its entire length and the collector-evacuator member comprises a central slide of cross section allowing the engagement of the collector-evacuator on the mast with setting in rotation and sliding. Preferably, the collector-evacuator member comprises, in addition to said slider: a circular bottom plate, of diameter slightly smaller than that of the borehole allowed by the tool, which is cut on a sector so as to form a radial edge delimiting the lower edge of said cuttings inlet opening, and - a peripheral wall, connected to the outer edge of this bottom plate, delimiting the radially outer side of said cuttings inlet opening and forming, with this bottom plate, a receptacle for receiving the cuttings. Said peripheral wall allows a good sliding of the collector-evacuating member 5 on the wall of the hole and a sliding guide of this collector-evacuator member during its back and forth along the mast. Advantageously, said central slide is open laterally and this lateral opening opens into said cut-out sector of the bottom plate, so that the collecting-evacuating member can be put in place on the mast, and removed from this mast, laterally. . Means, such as one or more locks, are provided to maintain the collector-evacuator member in the engagement position on the mast. According to another aspect of the invention, the tool comprises a plurality of radial blades inclined, stepped and in succession with each other, the length of the blades increasing from a shorter blade, located in anterior position relative to the direction of rotation of the drilling tool, to a longer blade located posterior to the same direction of rotation. This structure makes it possible, unlike a tool in the form of a continuous helical thread screw according to the prior art, to drill in a soil 20, notwithstanding the presence of pebbles in this soil. Indeed, the spaces between the blades allow a pebble to pass between these blades, without blocking the rotation of the tool, and, above all, this structure is effective to dislodge pebbles sometimes well anchored in the clay. moreover, this structure proves to allow the tool to drill even in a very loose soil, without turning in a vacuum. In addition, the respective lengths and arrangements of the blades make it possible to distribute the induced rotational force on the mast. Said cuttings inlet opening is positioned in the immediate vicinity of the trailing edge of the blade located in posterior position with respect to said direction of rotation. Preferably, the leading edge of at least one blade is substantially in the same plane perpendicular to the axis of rotation of the tool as the trailing edge of the preceding blade.

The blades are preferably divided into two pairs, with the two blades of the same pair placed diametrically opposite each other, and one pair being shifted by 90 ° with respect to the other pair. According to another aspect of the invention, the auger comprises: - two frames movable relative to each other, namely a first frame intended to bear against the ground and a second frame movable relative to this first chassis in a direction parallel to the drilling axis; the second frame is connected to the mast by releasable connection means; it is movable between an elevation position and a lowering position relative to the ground; from this elevation position, when attached to the mast, the frame moves downwardly with this mast when the mast sinks into the ground at the same time as the tool; when it reaches said lowering position, said connecting means are released so as to release this second frame relative to the mast, so that the second frame is adapted to be returned to said raised position; - a system of notches and tilting pawl located between the two frames; this system is such that it does not obstruct the movement of the second frame to said raised position, the pawl not being engaged with the notches; this system is also such that said pawl can be positioned against a first notch, without being in engagement with this first notch, in an unstable support position, and that said pawl, if it passes this first notch, switches to a position active to bring it next to the next notch, with which it comes into engagement when said second frame moves to the ground, thereby blocking this movement. At the beginning of drilling, said second frame is in said raised position; when the tool is inserted into the ground as a result of its rotation, the driving of the mast into the ground causes said second frame to move towards the ground and thus causes the pawl to pass said first notch, and therefore to come into said active position bringing it facing said next notch; continued drilling, and thus the displacement of the second frame, brings the pawl into engagement with this next step; the axial movement of the tool is then blocked and the tool is rotated empty and thus to fragment the earth in which it is inserted. This fragmentation eliminates the risk of excessive insertion of the tool into the ground and thus eliminates the risk of being unable to remove the mast and tool from the hole. When necessary, the fragmented cuttings are evacuated by the aforementioned collector-evacuator member. The pawl is then released from said next notch and a slight resumption of the drilling is performed to bring this next notch to the height of the pawl, which is then brought into said unstable support position against this next notch; the resumption of drilling leads to a displacement of said second frame towards the ground, making it possible to bring the pawl in abutment against the next notch, blocking again the displacement of the second frame and again allowing fragmentation of the cuttings by the tool , turning empty. These operations are repeated until said second frame has reached its lowering position; said connecting means are then released so as to release this second frame relative to the mast; the second frame can then be brought back, by appropriate means such as a crank, into said raised position, and said operations can be renewed. The aforementioned means for rotating the mast and the tool could be a motor; according to a preferred embodiment of the invention, this means is a transverse bar forming handles for exerting a torque on the mast and the tool. The invention will be better understood, and other features and advantages thereof will become apparent with reference to the accompanying diagrammatic drawing showing, by way of non-limiting example, a preferred embodiment of the concerned auger. Figure 1 is a general view, in perspective, in use; Figure 2 is a top view of a first frame which it comprises; Figure 3 is a view of this first frame, side; Figure 4 is a view of the face auger, before the start of drilling a hole, some elements of this auger being shown in sectioned, for the sake of clarity; Figure 5 is a side view of a collection-evacuating member included in this auger; Figure 6 is a view of this top member; Figure 7 is a side view of the tool that includes the auger; Figure 8 is a view of this side tool after pivoting 90 ° with respect to the view according to Figure 7; Figure 9 is a view of the tool from below; and Fig. 10 is a view of the face auger, while digging a hole.

FIG. 1 represents an auger 1 intended to drill a hole in a terrain 100, in particular for developing a well 101 reaching the water table 102 or an underground watercourse. This auger 1 comprises a frame formed of a first frame 2 and a second frame 3, an extendable mast 4, a tool 5 of drilling the earth, a transverse bar 6 forming a handle of a couple on the mast 4 to drive the tool 5 in rotation, and a member 7 collector-spill evacuator, slidably movable along the mast. These different elements are more particularly visible in the other figures.

Referring to Figures 2 to 4, it appears that the first frame 2 comprises two lower longitudinal members 2a, two vertical uprights 2b, a crossbeam 2c connecting these two uprights 2b to each other and 2d struts connecting the longitudinal members 2a and the amounts 2b. The longitudinal members 2a can in particular be equipped with wheels (not shown) facilitating the displacement of the auger 1. The uprights 2b are U-section and are arranged so that their longitudinal openings are located opposite one another these two uprights 2b together forming a vertical slide. The cross member 2c is also U-shaped section and houses a shaft 10 actuated by a crank 11, described below. The second frame 3 has an inverted U shape. The central branch of this frame 3 is traversed by the mast 4 and has a bearing 12 for the rotation of this mast. The inner part 12a of this bearing 12 is tubular, with a square cross-section, and receives the mast 4, itself of square cross-section, with sliding of this mast with respect to it but with adjustment so that the mast is linked. in rotation to it. The part 12a also comprises a tapped hole which passes through it, receiving a screw 13. This screw 13 is adapted, when screwed, to bear against the mast 4 and thus to make a connection of the frame 3 and the mast 4 according to the invention. drilling axis, so that the frame 3 moves towards the ground at the same time as the mast 4 when the tool 5 digs the ground; on the contrary, when it is unscrewed, this screw 13 does not perform this axial connection, so that the frame 3 is free in vertical displacement relative to the mast 4.

It can of course have several screws if necessary, and these screws may not bear directly against the mast 4 but press a clamping pad of the mast 4 so that a large contact surface between the screw or screws 13 and the mast 4 be obtained. The part 12a also comprises the transverse bar 6, keyed on it.

The lateral branches of the frame 3 are engaged in the vertical slide formed by the uprights 2b. One of them, located on the right of Figure 4, comprises a series of notches 14 on its inner face, and the cross member 2c comprises a rocking pawl 15 adapted to cooperate with these notches 14. The pawl 15 is movable in pivoting between a position in which it is inclined inwardly of the auger 1, and is completely clear of the notches 14, an unstable position of support against a notch 14 located at its height, shown in Figure 4, and a position in which it is inclined to the outside of the auger 1, shown in Figure 10, wherein it is engaged with one or the other of the notches 14 and thus blocks any movement of movement of the frame 3 in the direction of the ground.

The shaft 10 is connected to a cable 16 itself connected to a lower cross member 3a that includes the frame 3. The crank 11 makes it possible to wind this cable 16 around the shaft 10, and thus, by bringing the cross member 3a closer together. of the crossmember 2c, to bring the chassis 3, from a lowering position, to an elevation position relative to the ground, shown in FIG. 4. The pawl 15 does not prevent this displacement of the chassis 3, being is placed in said position of inner inclination, or disappearing in front of the notches 14 by tilting when it meets one. The mast 4 has a square cross section, as already mentioned, for its connection in rotation with the inner part 12a of the bearing 12. It is extendible by means of successive extensions fitting one after the other at its upper end. . Referring to Figures 7 to 9, it appears that the tool 5 comprises an axial body 19 on which is fixed a plurality of inclined radial blades 20a, 20b, 20c, 20d, staggered and in succession from each other, the length of blades extending increasing from a shorter blade 20a, located in anterior position relative to the direction of rotation making a bore, to a longer blade 20d longer located posteriorly with respect to this same direction of rotation. The leading edge of the blade 20b is substantially in the same plane perpendicular to the axis of rotation of the tool 5 as the trailing edge of the preceding blade 20a, and the leading edge of the blade 20c is is substantially in the same plane perpendicular to the axis of rotation of the tool 5 as the trailing edge of the blade 20b previous. A radially inner portion of the trailing edge of the blade 20c, that is to say located on the side of the body 19, is connected to a radially inner portion of the leading edge of the blade 20d by an inclined junction plate 21 The blades are further divided into two pairs, with the two blades 20a, 20c, 20b, 20d of the same pair placed diametrically opposite each other, and with a pair 20a, 20c shifted by 90 Relative to the other pair 20b, 20d The blades 20a, 20b, 20c, 20d may in particular have diameters of 140 mm, 220 mm, 280 mm and 340 mm respectively. In addition, the tool 5 comprises, at the distal end of the body 19, a piece 22 with two V-shaped branches, perforation of the earth. The member 7 collector-evacuator is intended to be slidably engaged on the mast 4, being wedged in rotation relative to this mast. Its sliding along the mast 4 makes it possible to move it between a position of immediate proximity with the tool 5, in which an inlet opening 24 of the cuttings, which it comprises, is immediately behind the blade 20d, and a position away from the tool 5, in which, in practice, it is on the surface and allows the discharge of the cuttings it has collected, as shown in dashed lines on the right of Figure 10. More specifically Figures 5 and 6, it appears that this member 7 comprises a bottom plate 7a, a central slide 7b, a peripheral wall 7c and a half-arch 7d.

The bottom plate 7a is circular, has a diameter slightly less than that of the bore allowed by the tool 5 (thus slightly less than the length of the blade 20d), and is cut on a sector of the order of 90 °. This cutout forms two rectilinear edges, one of which, located previously in the direction of rotation of the tool 5 which carries out a drilling, is equipped with an inclined wall 25. As can be seen in FIG. 5, the lower front edge of this wall 25 is connected to the plate 7a and the width of this wall 25 is such that the upper posterior edge of this wall 25 extends to the level of the free edge of the peripheral wall 7c. This wall 25 forms a ramp promoting the entry of the cuttings and also forms a barrier preventing these cuttings from emerging from the member 7.

The central slide 7b is formed by a section of U-shaped cross-section tube, the cavity of which is sized to allow the engagement of the member 7 on the mast 4 with sliding, but is adjusted to the cross section of the mast 4 of FIG. in order to bind in rotation the member 7 and the mast 4. The longitudinal opening of this slide 7b opens into the cut sector of the bottom plate 7a, so that the member 7 can be placed on the mast 4, and removed from this mast, laterally. A lock 26 is provided to maintain the member 7 in the engagement position on the mast 4, this lock 26 being tilting and actuated by means of a handle 27.

The peripheral wall 7c extends along the rounded edge of the plate 7a and along the straight edge formed by said cutout of the plate 7a, situated posteriorly in said direction of rotation of the tool 5 when it is drilling. The plate 7a, the wall 7b and the inclined wall 25 delimit a receiving receptacle cuttings, the inlet opening 24 has a radial extension relative to the mast 4 and is adapted to come immediately behind the blade 20d 5. The half-arch 7d makes it possible to grasp the member 7 to facilitate its handling. It also helps guide tool 5 during drilling. The member 7 is connected to a chain, or other type of link, the length of which is such that it makes it possible to move this member 7 between said position of immediate proximity with the tool 5 and said position of distance from this tool 5. In practice, at the beginning of drilling, the frame 3 is in the raised position shown in FIG. 4; the screw 13 is tightened and the pawl 15 bears unstably against the first catch 14, without being in engagement with this first catch.

Depressing the tool 5 in the ground during drilling moves the frame 3 towards the ground, transmitted by the mast 4, causing said first catch 14 to pass beyond the pawl 15; the latter then tilts in said outer tilt position to bring it next to the notch 14 next; continued drilling, and thus the displacement of the frame 3 towards the ground, brings the pawl 15 into engagement with this notch 14 following; the axial displacement of the tool 5 is then blocked and the tool 5 is rotated empty and thus to fragment the earth in which it is inserted. This fragmentation eliminates the risk of excessive insertion of the tool 5 into the ground and thus eliminate the risk of not being able to remove the mast 4 and the tool 5 from the hole. When necessary, the fragmented cuttings are evacuated by the 7-collector-evacuator member. The crank 11 is then slightly actuated to release the pawl 15 and the bar 6 is slightly actuated in the drilling direction to bring said notch 14 to the height of the pawl 15, then this pawl 15 is again brought into said support position unstable; the resumption of drilling leads to a new displacement of the frame 3 to the ground, allowing to bring the next notch in support against the pawl 15, blocking again the displacement of the frame 3 and again allowing a fragmentation of the cuttings by the tool 5, turning empty. When the frame 3 has reached its lowering position, the screw 13 is loosened so as to release this frame with respect to the mast 4; the chassis 3 can then be brought again, by action on the crank 11, in said raised position. As is apparent from the above, the invention provides an auger 1 intended in particular to develop a well reaching the water table or an underground watercourse, having the decisive advantages of not having to be frequently out of the drilled hole to evacuate cuttings, to allow drilling a hole notwithstanding the presence of pebbles in the ground, and not to risk being no longer able to be removed from the hole in case of compact soil or sticky loose soil. The invention has been described above with reference to an exemplary embodiment. It goes without saying that it is not limited to this embodiment but that it extends to all the embodiments covered by the appended claims.

Claims (9)

CLAIMS1 - Auger (1), comprising an extendable mast (4), a drilling tool (5) connected to this mast, and a means (6) for rotating the mast and the tool, characterized in that it also comprises: a cutter discharge collector-evacuation member (7) slidably engaged on the mast (4), comprising an opening (24) having a radial extension with respect to the mast (4), which allows the entry debris in the member (7) collector-evacuator; this member (7) collector-evacuator is movable along the mast (4) between a position of immediate proximity to the tool (5), in which it is wedged in rotation relative to this tool and wherein said opening ( 24) of the cuttings entry is immediately behind the upper portion of the tool (5), and a position away from the tool (5); and - a link such as a rope, a cable or a chain, connected to said member (7) collector-evacuator, whose length is such that it allows to move the member (7) collector-evacuator between said position of proximity immediate with the tool (5) and said position away from the tool (5). 2 - auger (1) according to claim 1, characterized in that the mast (4) has a non-circular cross section, for example square, over its entire length and in that the member (7) collector- evacuator comprises a central slide (7b) of cross section allowing the engagement of the evacuator-manifold on the mast (4) with rotationally locking and sliding. 3 - Auger (1) according to claim 1 or claim 2, characterized in that the member (7) collector-evacuator comprises: - a bottom plate (7a) circular, slightly smaller diameter than that allowed drilling 25 by the tool (5), which is cut on a sector so as to form a radial edge delimiting the lower edge of said opening (24) for entering the cuttings, and - a peripheral wall (7b), connected to the outer edge of this bottom plate (7a), which delimits the radially outer side of said opening (24) for entering the cuttings and which forms, with this bottom plate (7a), a receptacle 30 for receiving cuttings. 4 - Auger (1) according to claim 2 and claim 3, characterized in that said central slide (7b) is open longitudinally and in that this longitudinal opening opens into said cut sector of the bottom plate (7a). 5 - auger (1) according to one of claims 1 to 4, characterized in that the tool (5) comprises a plurality of inclined radial blades (20a, 20b, 20c, 20d), staggered and in succession some of other, the length of these blades increasing from a blade (20a) shorter, located in anterior position relative to the direction of rotation of the tool (5) when the tool is drilling, to a blade (20d) ) longer located in posterior position with respect to this same direction of rotation. 6 - auger (1) according to claim 5, characterized in that the leading edge of at least one blade (20b, 20c) is substantially in the same plane perpendicular to the axis of rotation of the tool ( 5) than the trailing edge of the preceding blade (20a, 20b). 7 - auger (1) according to claim 5 or claim 6, characterized in that the blades (20a, 20b, 20c, 20d) are divided into two pairs, with the two blades (20a, 20c, 20b, 20d) d the same pair placed diametrically opposite each other, and one pair being shifted by 90 ° with respect to the other pair. 20 8 - auger (1) according to one of claims 1 to 7, characterized in that it comprises: - two frames (2, 3) movable relative to each other, namely a first frame (2 ) to bear against the ground and a second frame (3) movable relative to the first frame (2) in a direction parallel to the drilling axis; The second frame (3) is connected to the mast (4) by releasable connection means (13); it is movable between an elevation position and a lowering position relative to the ground; from this raising position, when it is connected to the mast (4), the second frame (3) moves downwardly with this mast (4) when the mast (4) sinks into the ground at the same time time as the tool (5); when it reaches said lowering position, said connecting means (13) are released in order to release this second frame (3) with respect to the mast (4), so that the second frame (3) is adapted to to be returned to said raised position; - a system of notches (14) and tilting pawl (15) located between the two frames (2, 3); this system is such that it does not impede the movement of the second frame (3) to said raised position, the pawl (15) not being in engagement with the notches (14); this system is also such that said pawl (15) can be positioned against a first notch (14), without being engaged with this first notch, in an unstable support position, and that said pawl (15), if crosses this first notch, switches to an active position to bring it next to the next notch (14), with which it comes into engagement when said second frame (3) moves towards the ground, thereby blocking this movement. 9 - auger (1) according to one of claims 1 to 8, characterized in that the aforementioned means for driving in rotation of the mast (4) and the tool (5) is a transverse bar (6) forming grips for exercising a torque on the mast (4) and the tool (5).