NL1029541C2 - Screw injection drill is used for production of foundation column and comprises shaft provided with at least one injection aperture and screw blade - Google Patents

Abstract

The screw injection drill (1) is used for production of a foundation column. It comprises a shaft (2) provided with at least one injection aperture (6) and a screw blade (10) which extends around a lower end of the shaft and has an external diameter (D) greater than that (d) of the remainder of the screw injection drill. The drill has closure devices (8) which alternately open and clsoe the at least one injection aperture. These devices comprise a valve pivotably adjacent to an edge of the injection aperture. The injection aperture and corresponding valve are fitted in an end surface of the shaft. The end surface encloses an acute angle with a central line (C) of the shaft. The end surface is a principally straight surface which extends over a mainly entire cross-section of the shaft.

Description

Screw injection drill and method for manufacturing a foundation pile.

The invention relates to a screw injection drill for manufacturing a foundation pile, comprising a shaft provided with at least one injection opening, and a screw blade which extends around a lower end of the shaft and has an outer diameter (D) that is larger than an outer diameter (d) from the remainder of the screw injection drill, and closing means adapted to alternately release and close the at least one injection opening, the closing means comprising a valve pivotally mounted near an edge of the injection opening, the injection opening and associated valve are provided in an end face of the shaft, and wherein the end face encloses an acute angle with a center line (C) of the shaft.

Such a screw injection drill is known from European patent application 0.371.533. The shaft of the known screw injection drill has a conical end in which an injection opening with associated valve are provided. The conical end of the shaft thus forms the end face of the shaft. The valve has a pointed bottom portion that forms a tip of the shaft in the closed state of the valve.

The known drill is screwed into the bottom, to a desired depth, for example up to or on a bearing layer. The shaft is then filled with a hardening material, such as for example concrete, concrete mortar, cement and / or grout (this is a mixture of cement and a gel, preferably a wetting gel). Already while the drill is screwed into the soil, filling material is injected into the soil through the injection opening. This material forms a layer around the shaft, which can act as a lubricant during screw-in and, after hardening, forms a rigid jacket, which can protect the shaft against harmful influences of the surrounding soil and increase the overall strength of the foundation pile. Moreover, the layer can salinize at the border with the surrounding soil and thus form a chemical anchoring. Near the lower end of the drill, the layer has a relatively large thickness with an outer diameter that is at least equal to that of the screw blade. Thanks to the mixing action of the propeller blade, the filling material is intimately mixed with the surrounding soil after curing and can form a broad base after curing which contributes to the bearing capacity of the foundation pile.

1029541 2

The known screw injection drill has the drawback that the conical end of the shaft and the valve provided therein are relatively difficult to manufacture.

The invention has for its object, inter alia, to provide a screw-injection drill of the type described in the preamble in which this drawback is at least to a large extent obviated.

To this end, a screw-injection drill of the type mentioned in the preamble has the feature according to the invention that the end face is a substantially straight face that extends over substantially a whole cross-section of the shaft. Due to its geometry, a straight end face is easier to manufacture than an end face with a conical shape. The straight end face can easily be obtained by chamfering the shaft, for example by grinding. Because the end face is a straight face, the valve can also be straight. It is no longer necessary to provide the valve with a point-shaped lower part because the shaft will automatically get a point-shaped lower end through the straight end face.

According to an advantageous aspect of the invention, the closing means can be designed such that release of the injection opening takes place under the influence of gravity. In such a case, no separate drive means are required to open the closing means, which leads to a simple screw-injection drill. This is all the more advantageous since the drill remains in the ground.

Alternatively or additionally, the closing means can be designed such that they can be opened by the filling material to be injected. To this end, this filling material may or may not be introduced into the shaft under pressure. In this case, too, no separate drive means are required to open the closing means.

According to a further advantageous aspect of the invention, the closing means can be arranged such that closing thereof takes place by rotation, or at least a screw movement of the drill. The closing means can for instance be pressed shut by surrounding soil by a downward screw movement of the drill. In such a case, the closing means are preferably designed such that they can be opened by an upward screw movement of the drill. This allows dosing of filler material to be easily controlled by reversing the direction of rotation of the screw injection drill or temporarily stopping rotation. Moreover, by reversing the direction of rotation and the associated up and down movement of the drill, the injected filling material will be intensively mixed with the surrounding soil by the screw blade, so that a good adhesion and force transfer can take place to the surrounding soil.

According to yet a further aspect of the invention, the closing means 5 can be biased with the aid of biasing means towards a closing position. In such a case, the closing means can be opened by means of filling material supplied through the shaft and closed when this pressure is less than a biasing force exerted by the biasing means. Thus, dosing of filler material can be controlled by controlling the pressure at which the filler material is introduced into the shaft.

According to a further advantageous aspect of the invention, the closing means are preferably embodied such that, in the open condition, they extend between the relevant injection opening and the surrounding soil. The closing means can thus shield the injection opening against penetrating soil even in the open state.

According to a further advantageous aspect of the invention, a second screw blade can be provided around the shaft, with a direction of rotation that is opposite to that of the first screw blade. As a result, an even more intensive mixing of filling material and loosely drilled soil will take place during drilling.

The invention further relates to a method for manufacturing a foundation pile, using a screw injection drill according to the invention.

In the further subclaims, further advantageous embodiments of a screw injection drill according to the invention are described, as well as a method for manufacturing a foundation pile to be carried out therewith.

To clarify the invention, exemplary embodiments of a screw injection drill according to the invention will be further elucidated with reference to the drawing. Therein: FIG. 1 shows a screw injection drill according to the invention in front view; FIGs. 2A, B the screw injection drill of Figure 1, in side view, with closed or opened closing means, 4 FIGs. 3 A, B show in front view an alternative embodiment of a screw injection drill according to the invention, with closed or opened closing means; FIG. 4 shows in front view an embodiment variant of the screw injection drill 5 according to Figure 2A, with a turn screw blade; and FIG. 5 shows in front view a further embodiment variant of the screw injection drill according to Figure 2A, with a broad strip.

In this description, the same or corresponding parts have the same or corresponding reference numerals.

Figures 1 and 2A, B show a first embodiment of a screw injection drill 1 according to the invention. This screw injection drill 1 comprises a cylindrical, hollow shaft 2 with a length L and an outer diameter d. The shaft 2 is provided near an end 3 located in use above with coupling means 4 for coupling the drill 1 to drive means (not shown) for driving into the ground; Screws of the drill 1. The shaft 2 is furthermore provided with an injection opening 6 and closing means 8 near a lower end 5 in use, the closing means 8 are adapted to release and close the injection opening 6 as desired, at a later stage manner to be described. Furthermore, a screw blade 10 is provided around the lower end 5, with an outer diameter D that is larger than the outer diameter d of the shank 2. In the exemplary embodiment shown, this screw blade 10 has approximately one turn, but in alternative embodiments may comprise more turns or only one turn. part of a turn. Furthermore, the screw blade 10 can extend beyond the lower end 5 of the drill 1, as shown, and thus form a cutting blade 12. This cutting blade 12 can also be designed as a separate component, separate from the screw blade 10.

As can be better seen in Figures 2A and B, the injection opening 6 in the exemplary embodiment shown is arranged in a beveled end face 7 of the shaft 2. This end face 7 encloses an acute angle α with a center line C of the shaft 2. This angle α is approximately 45 ° in the exemplary embodiment shown, but may assume different values in alternative exemplary embodiments. The angle α will preferably be between approximately 30 ° and 75 °. Due to the chamfer, the injection opening 6 is substantially oval in shape.

5

In the exemplary embodiment shown, the closing means 8 comprise a slightly oval valve 14 which is pivotally attached to the shaft 2 by means of a hinge 15, near an edge of the injection opening 6 as seen in the screw-in direction. The orientation of the hinge 15 is such that a pivot axis 5 R thereof extends into the beveled end face 7, substantially parallel to a long axis of the oval opening 6 and valve 14. Thanks to such an orientation, the valve 14 can pivot downwards in a first position of the drill 1 and thus release the injection opening 6, and upon further rotation of the drill 1, the valve 14 will be pivoted back through surrounding bottom walls to a position in which the injection opening 6 is closed.

The closing means 8 described above work as follows. When the screw injection drill 1 is screwed into the ground, the valve 14 will be held in a closed position by counter-pressure of the surrounding ground. In order to open the valve 14, the drill 1 must be pulled up slightly. As a result, a drill cavity will be released underneath the drill end 5, which cavity provides space for allowing the valve 14 to pivot down, under the influence of gravity and / or pressure of filling material present in the shaft 2 (not shown). This filling material can then flow into the said drilling cavity or be injected with excess pressure. When the screw injection drill 1 is subsequently screwed down again, the swiveled open valve 14 will be forced upwards by the surrounding bottom wall to a closing position, in which the injection opening 6 is protected against penetrating soil. The filling material injected into the soil will be transported upwards by the rotating movement of the screw blade 10 and form a lubricating and protective layer around the shaft 2. Since the valve 14 extends between the opening 6 and a ground wall opposite this opening 6 in the open condition, the valve 14 will also shield the opening 6 from penetrating ground in this position.

In Figs. 3A, B an alternative embodiment of a drill 101 according to the invention is shown in which the beveled end face 107 according to Figs. 1 and 2A, B is replaced by a straight end face 107, which is substantially perpendicular to a center line C of the shaft 102 extends. The injection opening 106 is again provided in this end face 107 and in this exemplary embodiment has a substantially round shape. The closing means 108 comprise a substantially round valve 114 which is pivotally attached to a peripheral edge of the injection opening 106 by means of a hinge 115, the hinge axis R extending substantially parallel to a cutting edge 113 of the cutting knife 112, on the same side of the shaft 102 as said cutting edge 113.

The operation of the closing means 108 broadly corresponds to the operation described above with reference to Figures 1 and 2A, B. Because in this embodiment there is a chance that the valve 114 is not completely closed by the surrounding bottom when the drill 101 is turned through, additional means may be provided to help close the valve 114. For example, the hinge 115 may comprise biasing means, for example, a torsion spring (not shown), which biases the valve 114 toward a closing position. In such a case, the valve 114 can be opened against the biasing force with the aid of pressure exerted on the valve 114 by the filling material. Alternatively, drive means may be provided in or near the hinge 115, for instance electromechanical, pneumatic or hydraulic, with which the valve 114 can be swiveled shut and possibly swivel open. Of course, such biasing means or drive means may also be provided in the previously described embodiment according to Figures 1 and 2A, B and the embodiments to be described hereinafter.

Figure 4 shows a further embodiment of a screw injection drill 201 according to the invention, wherein a screw blade 220 is added relative to the embodiment shown in Figure 2A. This additional screw blade 220 extends around shaft 202, above the first screw blade 210, with an opposite direction of rotation and an outer diameter D 'which is preferably smaller than that of the first screw blade 210. As a result, this additional screw blade 220 can act as a deflector vane. and in use, an even more intensive mixing of filler material and existing soil can take place.

Figure 5 shows an embodiment of a screw injection drill 301 according to the invention, wherein a friction breaker 325 is provided above the screw blade 310.

While screwing in the drill 301, this creates space between the surrounding ground and the shaft 302, which space can then be filled with filling material injected via the injection opening 6, such as grout. As a result, it can be even better guaranteed that a sufficiently thick layer of filling material can form around the shaft 302, which can act as a lubricant during the insertion of the drill 301 and in the cured state can protect the drill 301 against, for example, corrosion or such harmful influences of surrounding ground.

The invention is in no way limited to the exemplary embodiments shown in the description and the drawing. All combinations of (parts of) the embodiments shown and described above are considered to fall under the inventive concept. For example, the screw injection drills according to the invention may comprise both an additional deflector vane and a friction breaker, in combination with a beveled end face (as shown in Figs. 1, 2A, B, 4 and 5) or a straight end face (as shown in Fig. 3A). , B).

Moreover, many variations on the embodiment variants shown are possible. For example, the or each injection opening can be provided in the shaft wall above the end faces. The closing means can in that case comprise the same type of pivotable valve, which can be pivoted outwards under the influence of filling material present in the shaft and can be pivoted back by a rotating movement of the drill to a closing position.

These and many other variations are understood to fall within the scope of the invention as set forth in the following claims.

1029541

Claims (14)

A screw injection drill for manufacturing a foundation pile, comprising a shaft, provided with at least one injection opening, and a screw blade which extends around a lower end of the shaft and has an outer diameter (D) that is larger than an outer diameter (d) of the remainder of the screw injection drill, and closing means adapted to alternately release and close the at least one injection opening, the closing means comprising a valve pivotally mounted near an edge of the injection opening, the injection opening and associated valve are arranged in an end face of the shaft, and wherein the end face encloses an acute angle with an axis (C) of the shaft, characterized in that the end face is a substantially straight plane extending substantially over an entire cross-section of the shaft extends. The screw injection drill according to claim 1, wherein the enclosed angle is between approximately 30 ° and 75 ° and is preferably approximately 45 °. 3. A screw injection drill as claimed in claim 1 or 2, wherein the closing means are adapted to release the at least one injection opening under the influence of gravity. A screw injection drill according to claim 1, 2 or 3, wherein the closing means are adapted to release the at least one injection opening under the influence of pressure exerted by filling material present in use in the shaft. A screw injection drill according to any one of the preceding claims, wherein the closing means are adapted to be brought from a releasing position to a closing position by a screw movement of the drill. 6. A screw injection drill as claimed in any of the foregoing claims, wherein biasing means are provided for biasing the closing means in a closing position. A screw injection drill according to any one of the preceding claims, wherein the closing means extend in the release between the injection opening and surrounding soil. 1029541 A screw injection drill according to any one of the preceding claims, wherein the valve has an elongated or elliptical shape, and a pivot axis of the valve extends substantially parallel to the longitudinal direction of the valve. 9. A screw injection drill as claimed in any of the foregoing claims, wherein the screw blade extends over only a part of the shaft length, and comprises at most a few turns. A screw injection drill according to any one of the preceding claims, wherein the screw blade blade extends beyond the lower end of the shank, to form a cutting blade. A screw injection drill according to any one of the preceding claims, wherein a second screw blade is provided around the shaft, with a direction of rotation that is opposite to that of the first screw blade. 12. Method for manufacturing a foundation pile, using a screw injection drill according to one of the preceding claims, wherein the at least one injection opening is checked and repeatedly closed and released during screwing of the drill into the soil for soil filling material. 13. Method as claimed in claim 12, wherein the or each injection opening is released by moving the drill up a small distance while screwing into the bottom. A method according to claim 12 or 13, wherein the or each injection opening is closed by closing means by a screw movement of the drill. 1029541