DE2422489A1 - Earth borer with drill shaft and screw shaped cutting blade - shaft has hub with stops for rotary blades pivot fitted to hub - Google Patents

Abstract

Eart borer with a drill shaft which has a screw-shaped cutting blade fitted to the outer periphery of the bottom part of the drill shaft where a hub (5) is fitted t the drill shaft (1) above the screw-shaped cutting blade (2) and has stops for rotary blades (6). The blades are pivot fitted to the hub (5) by means of of pins (7) for free pivoting in and out and are arranged so that they lie on stop sn8) when spread out. There is a water feed bore within the drill shaft (1) and there are water spray- or outlet orifices, connected with the water feed bore (3), in the bottom part of the drill shaft. Specifically, the diameter of the rotary circuit of the blade tips in their spread out state is greater than the outside diameter of a pile to be inserted.

Description

Earth drill and method for inserting piles or the like.

The present invention relates to an auger having a Drill shank that has a helical cutting blade that extends on the outer circumference of the is arranged lower part of the drill shaft, in particular for driving prefabricated piles made of concrete and sheet metal in a foundation for the construction of a Building is intended, and on a method for inserting piles o. The like.

When a pile is inserted with the help of an auger, - Depending on the hardness of the foundation - suitable for the respective foundation Earth auger used.

Therefore it is necessary if the hardness of the foundation to be excavated varies depending on its depth, changing the auger from time to time, and sometimes the stake must be driven in by striking force. Besides that, it does it is a matter of setting a stake in one excavated with an auger Frictional resistance between the pile and the wall of the borehole difficult to set the stake in.

To solve the problem of creating an auger with which in various The present creates substrates, in particular piles or the like, which can easily be used Invention an auger, which is characterized by a hub on the drill shank Above the helical cutting blade is arranged and stops for rotary knives which can be swiveled on the hub by means of a pin for free swiveling out and in are arranged and designed to rest against stops 8 when they are spread apart. The present invention also provides a method for inserting piles, that consists in that a pile during the rotation of a drill stem in the ground is introduced, while the part of the drill shaft lying over rotary knives is inserted into an axial borehole in the pile and that one through the auger Formed space in the ground with grouting material we mortar or the like. From the surface of the earth is filled through an axial feed channel in the drill shaft.

The finished hollow concrete pile is thus in one layer around the earth tube Loosely inserted above the rotary knife, the pile is inserted into the ground in this location is driven by excavating a borehole, and then is the excavated borehole through an inner cavity of the auger with mortar or the like filled.

So it creates an auger that doesn't necessarily changed from time to time or by a machine for use on one other process must be replaced, even if the nature of the foundation varies depending on its depth.

Furthermore, means are used for the automatic spreading of rotary knives created to have a slightly larger diameter than an outside diameter of one to get the pile to be inserted when an auger rotates forward, and around these rotary knives to a slightly smaller diameter than an inner diameter to pull this pile together when the auger rotates in reverse.

It also reduces the frictional resistance between the pile and the wall of the borehole reduced when driving the pile into the foundation.

The invention therefore creates an auger to which Drill shaft freely expandable and reattachable rotary knife attached in this way are that these rotating blades expand automatically when the drill shank is rotated in the drilling direction while they automatically contract when the message is rotated in the opposite direction. After the procedure will Posts or the like are positioned and positioned adjacent to the drill shaft over the knives tracked into the borehole created by the rotating knives. After that, will the borehole excavated by the rotating knife with a potting material like mortar or the like filled.

Further advantages and features of the invention emerge from the subclaims and the description in connection with the drawings. A preferred one Embodiment of the invention is illustrated in the drawing and will be described below explained in more detail. 1 shows a side view of a preferred embodiment of the present invention, Fig. 2 is an enlarged cross-section along line II-II in Fig. 1, Fig. 3 an enlarged cross-section of the same part as in Fig. 2, but in a different position, FIGS. 4 and 5 longitudinal sections, the successive Fig. 6 shows working stages of the auger according to the present invention a longitudinal section showing a pile in the fully driven and secured position 7 shows a side view of another preferred embodiment the invention, Fig. 8 is a cross-section of the same along the line VIII-VIII in Fig. 7, Fig. 9 shows an enlarged longitudinal section of part of the embodiment According to Fig. 7, Fig. 10 to 12 longitudinal sections, the successive work stages of the second embodiment, Fig. 13 is a side view of another Embodiment of the present invention, FIG. 14 is a cross section along a line XIV-XIV in Fig. 13, seen in the direction of the arrow, and Fig. 15 to 17 longitudinal sections, showing the successive stages of operation of the third embodiment.

Fig. 1 shows a drill shank 1 of an inverted conical shape. A helical cutting blade 2 is arranged outside of the drill shaft 1, a hollow water supply bore 3 is formed within the drill shaft 1, and in the Spray or outlet openings 4 are drilled into the bottom part of the drill shaft. aside from that a hub 5 is provided in the upper part of the drill shaft 1 on the rotary knife 6 are rotatably arranged by means of pin 7 for free pivoting out and in. the Rotary knives 6 are provided for, when they are spread apart, on stops 8 to lie on.

When the hub 5 is rotated in the direction of arrow A5 in Fig. 2; will, so the rotary knives 6 - due to the on the tip ends of the rotary knives 6 resistive forces exerted by the earth around the pegs 7 in the direction of arrow A6 turned until they hit the stops 8.

Then their rotation is finished. In this case the diameter increases of the rotation circle of the tip ends 6E of the knives 6 has its highest value.

On the other hand, the rotary knives 6 - if the hub is reversed is rotated, i.e. when it is in the direction of the arrow shown in FIG A5 is rotated in the opposite direction - also around the pin 7 in the direction to of the arrow A6 rotated in the opposite direction and thereby take the one shown in FIG Location a. In this case, the diameter of the circle of rotation of the tip ends increases 6E the knife 6 shows its lowest value.

In addition, water is drawn through the water supply hole during the drilling process 3 introduced, which is sprayed through the spray openings 4.

Then a prefabricated, hollow cylindrical post P driven into the earth. First the drill is in the pile P is inserted, and then the drill shaft 1 in that shown in FIG Position set in rotation while water is sprayed from the spray openings 4.

Due to the rotation of the helical cutting blade 2 on the outer circumference of the drill shaft 1 penetrates the drill shaft 1 into the earth, while the rotary knife 6 above the helical cutting blade 2 to that in FIG. 2 shown Spread the position so that the rotary knives 6 the underlying one during the rotation Dig up the earth and thereby drive the post P above it downwards, to insert it into the excavated borehole.

In Figs. 4 to 6, the means for suspending the post P as well as for rotating the drill shaft 1 is not shown, since this is conventional means can be used.

When the drilling process has progressed to the stage shown in FIG is, the rotation of the drill shaft 1 is stopped, the spraying of water through interrupted the spray holes, and then mortar into the cavity formed in the earth 9 filled. Mortar is to be understood here as meaning all types of suitable casting compounds. The filling of mortar into the cavity 9 is through the water supply hole 3 and the openings 4 carried out.

Since the inside of the cavity 9 through during the drilling process from the spray orifices 4, when water was washed out, it is on the inner surface the cavity 9 is a surface of the supporting foundation or the supporting ground 10 exposed. As a result, the gradually filled mortar occurs in direct and close contact with the foundation 10, so that no soft, weak part between the outer surface of a bulbous part 11 and the supporting foundation 10 are formed will.

When the mortar filling is finished, the drill shank becomes 1 in the direction opposite to the direction of the arrow A5 rotated to the rotary knife 6 to fold and contract into the position shown in FIG. 3, and then the drill shaft 1 is formed by a pile P left in the earth axial borehole withdrawn to the surface of the earth, which results in the position according to FIG. 6, where an excellent foundation block 11 is formed.

In a modified embodiment according to FIGS. 7 to 12 denote the reference numerals 1 to 11 and the letter P those parts which have the same function as those denoted by the same characters or letters in the first embodiment Have parts. There are a drill bit 12, in the pin 7 drilled water channels 13, water passages 14 and water spray ports formed in the respective rotary meters 6 15 provided in the Rotatönamessern 6.

The water introduced through the water supply hole 3 is through the water channels 13 and 14 and directed by spray orifices 15 in the direction of the Arrow A15 sprayed.

A prefabricated hollow pile P is placed on a predetermined surface of the earth Erected for driving the pile, a drill shaft provided with rotary knives 6 1 is inserted into an axial borehole 16 in the pile P, the upper part of the Drill shaft 1 is together with the pile P on a pile setting machine, not shown hung up and in this position the drilling shaft 1 is against a drive gear s rotated.

The part of the earth under the pile P is through the drilling end part 12 and the helical cutting blade 2 is drilled out and at the same time the rotary knives 6 expanded into the position shown by the friction with the earth's surface, so that the earth around the post P is also excavated by the spreading rotary knife 6 become karin.

Then - as the outer diameter D2 of the rotary knife 6 is rotated is slightly larger than the outer diameter D1 of the pile P is chosen - between the borehole excavated by the rotary knife 6 and the outer circumference of the pile P a free space or gap 17 is formed.

In this way the pile P is put into the by the rotary knife 6 excavated borehole driven so that the pile P up to a desired Depth can be introduced while the friction between the pile P and the earth is decreased.

Sometimes - depending on the nature of the soil - at the same time with the rotation of the drill shaft 1 water from spray openings 15 in the rotary knife 6 sprayed in the direction of arrow A15 in Fig. 11 to reduce the resistance to rotation of the Rotary knife 6 in addition to reducing the frictional resistance around the pole P to reduce.

After the pile P up to a preselected position - shown in Fig. 11, has been introduced, the rotation of the drill shaft 1 is stopped, the spraying interrupted by water from spray ports 4 and 15, and then mortar is in a cavity 9 formed in the earth through the water supply hole 3, the water spray respectively.

outlet openings 4, water channels 13 and 14 and water spray or outlet openings 15 filled. Just like in the already described In the first embodiment, the mortar comes into direct, close contact with the exposed Soil inner surface on the inner surface of the cavity 9, and this is on the Bottom of the pile P formed bead part or the foundation block 11 firmly from the Borne in the ground. According to the second embodiment, the clearance 17 is between the outer circumference of the pile P and the inner wall of the excavated borehole in the earth is also filled with mortar, either simultaneously with the filling of mortar into the cavity 9 through the water supply hole 3 in the drill shaft 1, or by separately filling mortar directly into the clearance 17.

This allows the stake to be better borne by the ground.

When the filling of mortar through the water supply hole 3 is finished is, the drill shaft 1 is rotated in the opposite direction to the rotary knife 6 as shown in Fig. 3 and swivel in, and then the Drill shaft 1 pulled completely out of the pile P through the axial borehole 16, while only the post P remains in the ground.

In another, shown in FIGS. 13 to 17, modified Embodiment, the reference numerals 1 to 12 denote the parts that have the same function we have the parts provided with the same reference numerals in FIGS. 1 to 12. There are also a sheet metal pile S, projections 18 on the opposite Sides of the sheet metal pile S, a drive gear 19 for the drill and drill bit sections 6E the rotary knife 6.

If a sheet metal pile S, e.g. a sheet pile profile, is carried out using the described auger is driven into the earth, the drill shaft 1 and the sheet metal pile S suspended in a pile setting machine, not shown, while they maintain their respective position shown in FIGS. 13 and 14. More accurate said: the lower end of the sheet metal pile S is above the rotary knife 6, and the respective position along the horizontal plane is chosen in such a way that the channel or the recess 21 of the sheet metal pile S through at its center a circle of rotation 20 of the tip ends 6E of the rotary knives 6 is covered.

In the above-mentioned state, water becomes 1 during the rotation of the drill shaft sprayed from the water spray openings 4. It will be a borehole that is the same size has like the rotation circle 20, through the drill end part 12, the helical one Cutting blade 2 and the rotary knife 6 are formed and the sheet metal pile S is in the Borehole used.

This intermediate stage in the process of setting the pile is shown in FIG. 15 shown. After the sheet metal pile S to a predetermined depth in the earth is inserted, the drill shaft 1 is rotated in the opposite direction to the Rotary knife 6 in a shown by a dash-dotted line in FIG Fold and pull the position together and then the drill shaft 1 is withdrawn upwards. During the withdrawal, a relatively poorly mixed filler material of sand, Cement, mortar or the like

filled into the borehole formed by the auger, and thereby the sheet metal pile S can be completely embedded in the ground.

Because with the leanly mixed filler material a mixture that is largely has a similar strength as the earth around the sheet metal pile S is used around, this filling material does not prevent the sheet metal piles S from being withdrawn from the ground, after the construction is finished.

The same process as described above is repeated while another sheet pile S is arranged next to the sheet pile S embedded in this way, by being connected to the projections 18 of the respective sheet metal piles S, and as a result, a number of sheet metal piles S are embedded in the earth, as shown in Fig. 16 shown. After all, a large number of sheet metal piles S are embedded in the earth, as described in FIG.

If the sheet metal piles S are embedded using the above method, the noise is low in contrast to the well-known driving in with a ram, embedding is possible in any soil and the work when withdrawing the Sheet metal piles, if these become unnecessary, are easier.

Although the third embodiment together with the embedding of sheet metal piles instead of sheet metal piles, other piles, e.g. double T-beams, can also be used or the like. Be embedded in the same way.

Claims (11)

Expectations Efdbohrer with a drill shank that has a helical cutting blade possesses, which is arranged on the outer circumference of the lower part of the drill shaft, marked by a hub (5) attached to the drill shank il above the helical cutting blade (2) is arranged and has stops for rotary knives (6) on the hub (5) arranged and pivotable by means of pin (7) for free pivoting out and in are designed to rest against stops (8) when they are spread apart. 2. Earth drill according to claim 1, characterized in that within of the drill shaft (1) a water supply bore (3) is formed and that water spray or outlet openings (4) which are connected to the water supply bore (3), are arranged in the lower part of the drill shaft (1). 3. Earth drill according to claim 1 or 2, characterized in that the diameter (D2) of the rotation circle the tip ends of the expandable and pivotable rotary knives (6) in their expanded state is greater than the outer diameter (D1) of one to be used Post (P). 4. Earth drill according to one of claims 1 to 3, characterized in that that the diameter (D2) of the circle of rotation of the tip ends of the spreading and pivotable rotary knife (6) is smaller in the pivoted state than the inner diameter of a pile to be inserted (P). 5. Earth drill according to one of claims 1 to 4, characterized in that that a drill bit (12) is attached to the lower end of the drill shaft (1). 6. Earth drill according to one of claims 1 to 5, characterized in that that in each rotary knife (6) a water channel (13,14) and a water spray or outlet opening (i5) is formed, which with each other and with a water supply bore (3) are connected within the drill shaft (1). 7. Method of inserting piles with an auger, thereby characterized in that a pile P during the rotation of a drill shaft (1) in the Soil is introduced, while the part of the rotary knives (6) Drill shaft (1) is inserted into an axial borehole (16) in the pile P, and that a space (9) formed by the auger in the soil with potting material such as mortar or the like. From the earth's surface through an axial feed channel in the Drill shank (1) is filled. 8. The method according to claim 7, characterized in that, during the drill shaft (1) is inserted into an axial borehole (16) in the pile P, potting material like mortar or the like through a water supply hole (3) forming the supply channel is filled inside the drill shaft (1). 9. The method according to claim 7 or 8, characterized in that the Pile (P) is inserted into the ground, while water from rotary knives (6) the auger is sprayed. 10. Method of inserting piles with an auger, thereby characterized in that a sheet metal post or girder (S) is inserted into the ground, while a drill shaft (1) is rotated, the one above the rotary knives (6) Part in a channel or a recess (21) in the central area of the sheet metal pile (S) is arranged, and that a space excavated by the auger in the earth (9) with lean mixed filling material such as mortar or the like. From the surface of the earth through an axial borehole (16) is filled in the drill shaft (1). 11. The method according to claim 10, characterized in that during pulling out a drill stem (1) from a borehole excavated by it (20) this borehole (20) with a lean mixed material such as mortar or the like. from the earth's surface through a water supply hole (3) in the Drill shank (1) is filled. Blank page