EP2320023A1 - Method and device for expanding a pilot borehole in soil - Google Patents

Abstract

The method involves retracting a drill hole opener (1) in a direction to a start groove from an objective groove and transporting the excavated earth into the start groove by a screw (3). The excavated earth is transported by a screw tube surrounding the screw. The drill hole opener is retracted by the tightly connected screw tube. An independent claim is also included for a device for enlarging a pilot hole in the ground.

Description

The invention relates to a method and an apparatus for expanding a pilot hole in the ground. In the method, a borehole opener driven by a screw for rotation is pulled in from a target pit in the direction of a starting pit and transported in the bore extension accumulated overburden by means of a screw into the starting pit. The device comprises a screw which can be composed of shots and a borehole opener which is fixed against rotation and tension on the screw.

It is known when expanding new ears, in particular plastic pipes, to widen a pilot hole already existing between the start and finish pit. In this case, a borehole opener or backreamer is connected to a multi-shot steel pipe in the target pit, to which in turn the new pipe is attached via a connecting piece. Through the steel pipe, borehole openers and new pipes are taken to the launch pit. In particular, in the case of plastic new ears whose surface is to protect against excessive engagement of the surrounding soil. As a result, the diameter of the borehole opener is significantly larger than that of the neural tube, and the neural ear is constantly bathed in bentonite. The torque for the hole opener is transmitted through the steel tube. In order to prevent turning of the new pipe, it is connected to the borehole opener with a swivel. The overburden produced by the borehole opener is conveyed together with the bentonite surrounding the new pipe towards the target pit. The amount of bentonite to be used is very high.

From the DE 25 07 984 B2 a method of the type mentioned is known in which for producing a connecting tunnel between substantially parallel traffic tunnels a pilot hole is extended by means of a borehole opener, wherein the borehole opener is pulled by a screw conveyor, which simultaneously transports the overburden to the launch tunnel. In order for such a removal is possible, the surrounding soil must be solid, otherwise it would come to Versackungen due to slipping of the soil. It is an object of the present invention to provide a method and a device of the type mentioned above, with which a promotion of the spoil generated by the borehole opener via the screw to the starting pit is possible even in loose soil.

In a method of the aforementioned type, this object is achieved by the characterizing features of claim 1. Advantageous embodiments are defined in claims 2 and 3.

The auger tube supports the pending soil and thus allows only the promotion of the degraded by the borehole opener soil. The borehole opener can be pulled in the case of a tensile trained snail by means of the screw.

It is advantageous to pull the borehole opener by means of the screw tube. The worm then does not need to be trained tensile.

The method according to the invention is particularly advantageous in the case of drawing in a new ear, in particular one made of plastic. Compared to the previously used and initially described method bentonite is required only for lubrication of the plastic pipe due to the overburden conveyed by the screw tube, resulting in a significant reduction of the required amount of bentonite.

In a device of the aforementioned type, the aforementioned object is achieved by the characterizing features of claim 4. Advantageous embodiments of the device according to the invention will become apparent from the dependent claims.

The at least one overburden opening allows access to the overburden in the screw tube, where it is transported by means of auger conveyance into the starting pit. In an advantageous variant, the screw tube, which preferably consists of steel, indirectly draws the borehole opener via a pressure bearing between the end ring of the screw tube and the screw. The tensile force of Screw tube is transferred via the axial forces receiving thrust bearing on the last shot of the worm, which is rotatably and tension-tightly connected to the borehole opener, whereby the latter can be pulled to the starting pit,

The optional shield element is used to prevent unwanted slipping or falling off the edge of the enlarged borehole. The shield element can be attached to the borehole opener itself and rotate with the borehole opener. But it is also possible to fix the shield element to the coupling unit. If the shield element with its shield function is formed continuously from the coupling unit to the borehole opener, the area between the coupling unit and the borehole opener is thus also protected by the shield element. The latter is possible both when fixed to the coupling unit as well as fixation at the borehole opener.

The shield member may comprise the entire circumference of the borehole finisher or only a portion thereof. The shield element may e.g. be provided over a third to half of the circumference, which may be sufficient in suitable soil to prevent slippage of the soil from above and optionally from the sides towards the Abraumöffnung (s).

An advantageous embodiment of the method according to the invention and the device according to the invention are illustrated below with reference to a figure.

The single figure shows in a cross-sectional view schematically a borehole opener 1 with blade elements 2, of which only one is shown here, wherein the borehole opener 1 is rotationally and tension-fixed with the last shot of a screw 3 fixed via a connection point 4. A pull pot 6 is connected to the borehole opener 1 via a swivel (a tension-proof rotary joint) 5, to which a neuro-ear 8 can be fixed via fixing holes 7.

The screw 3 is surrounded by a screw tube 9, which has at its the borehole opener 1 end facing Abraumöfinungen 10. In the screw tube 9 is at its end facing the borehole opener 1 a closing ring 11, z. B. by means of a welded joint, fixed. At this end ring 11, the screw is 3rd rotatably mounted by means of an axial forces receiving thrust bearing 12. The screw tube 9 is like the screw 3 constructed of several shots, of which only the last shot can be seen in the figure. The shots of the screw tube 9 are tensile strength connected to each other, while a high-tensile connection between the wefts of the screw 3 is unnecessary.

For drawing in the new ear 8 of the borehole opener 1 is rotated by means of the screw 3, while the screw tube 9 performs no rotational movement, When the screw tube 9 is pulled by means of a pulling device not shown here to the starting pit, the tensile force on the end ring 11 and the thrust bearing 12th transmitted to an end 13 of the screw 3. Due to the given via the junction 4 tensile and rotationally fixed connection between the screw 3 and the borehole opener 1 of the screw 3 mitdrehende borehole opener and with him the swivel 5 and attached thereto, due to the Swivels 5 not co-rotating Neurohr 8 also in Direction pulled to the starting pit. The equipped with cutting teeth 15 blade elements 2 of the rotating borehole opener 1 solve the soil, soft falls over the excavation openings 10 in the screw tube 9 and is then removed due to the rotational movement of the screw 3 to the starting pit.

Thus, in the case of loose soil this does not follow the gravity of the edge of the enlarged borehole in the direction of the screw tube 3, the pull pot 6 a the hole opener 1 overlapping shield member 14 is provided. The blade elements 2 of the borehole opener 1 have at their outer end in each case an obliquely outwardly placed external tooth 16, which cuts the soil in front of the shield element 14 and thus makes the shield element 14 clear the way. The shield element 14 is limited to an upper portion of the circumference of the borehole opener 1 as shown in the figure. However, the shield member 14 may also completely enclose the borehole opener.

During the drawing in of the new ear 8, bentonite is introduced via an inlet, not shown here, through the interior of the new ear 8 through an opening in the tube wall to the outside of the new ear 8 (indicated in the figure by arrow 17), whereby the friction load of the new ear 8 is reduced,

LIST OF REFERENCE NUMBERS

1

hole openers

2

vane element

3

slug

4

junction

5

Swivel

6

Zugtopf

7

fixing holes

8th

new pipe

9

steel tube

10

overburden opening

11

end ring

12

thrust bearing

13

tail

14

shield element

15

Scheid tooth

16

outdoor gear

17

Bentonitfluss

Claims (10)

Method for expanding a pilot hole in the ground, in which from a target pit by a screw (3) driven for rotation borehole opener (1) pulled towards a start pit and transported in the bore extension waste by means of the screw (3) in the starting pit is, characterized in that
the overburden is transported through a screw tube (9) surrounding the screw (3). A method according to claim 1, characterized in that the borehole opener (1) by means of the tensile screw tube (9) is pulled. Method according to claim 1 or 2, characterized in that a new ear (8) attached to the borehole opener (1) is drawn into the enlarged borehole. Device for expanding a Pibtbohrung in the ground, comprising a) an assembly of shots screw (3) and b) a rotationally and tension-resistant fixed to the screw (3) borehole opener (1), characterized by c) a worm tube (9) which can be assembled from shots and which surrounds the worm (3), the worm tube (9) having at least one overburden opening (10) for receiving overburden at its end facing the borehole opener (1). Apparatus according to claim 4, characterized in that the worm (3) in the region of the borehole opener (1) end rotatably mounted on the screw tube (9) via an at least axially acting thrust bearing (12) and the screw tube (9) is configured tensile strength , Apparatus according to claim 5, characterized in that in the screw tube (9) at the end facing the borehole opener (1) a closing ring (11) on the screw tube (9) fixed and the screw (3) via the thrust bearing (12) on the closing ring (11 ) is stored. Device according to one of claims 4 to 6, characterized in that the borehole opener (1) is provided with a coupling unit (5, 6) for coupling an object to be fed into the extended borehole, in particular a neuro-ear (8). Device according to one of claims 4 to 7, characterized in that the circumference of the borehole opener (1) at least partially comprehensive in the pulling direction on the at least one overburden (10) protruding and at least partially slipping off soil from the edge of the widened bore preventing shield element (14) is provided. Apparatus according to claim 7 and 8, characterized in that the shield element (14) on the coupling unit (5, 6) is fixable. Apparatus according to claim 8, characterized in that the shield element (14) is fixed to the Bohriochöffner (1).

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