SE461236B - Device for geotechnical sampling - Google Patents

Abstract

A sampling tube 14 is intended to be arranged at the lower end of a drilling tube 10 which is driven down into the ground by percussion drilling and/or rotary drilling. The sampling tube 14 is connected to an expandable sleeve 22. To secure the sampling tube, an overpressure is generated in the sleeve 22, whereupon the walls of the latter expand and come to bear against the walls of the drilling tube 10. This achieves a secure hold of the sleeve 22 and of the sampling tube 14 during the sampling procedure. When the sampler is filled, the pressure in the sleeve 22 is reduced and this sleeve, together with the sampler, is drawn upwards through the drilling tube 10. <IMAGE>

Description

461 236 arranged to engage a groove on the inside of the tube. The tiles are reg- removable from the surface and it becomes possible to detach the sampler tube and bring this up to the surface while the drill pipe remains in the borehole. The is desirable to be able to carry out a continuous sampling at different depths without having to pull the drill pipe between sampling times out of the hole, because you want to avoid material from the walls collapsing down into the bottom of the hole and mixed into samples taken at other levels. The object of the invention is to provide a device for geo- logical or geotechnical sampling, which device enables demolition drilling of a drill pipe by means of percussion drilling and / or rotary drilling and sampling, while the drill pipe remains in the borehole. These object is achieved according to the invention by means of a device which is characterized that an expandable member is provided in connection with the test receiver means that means are provided for controlled generation of a pressure increase and partly a decrease in pressure in the expandable member, that it the expandable member is arranged to go to the contact during the increase in pressure. against the wall of the drill pipe to form a frictional grip therewith and means are provided for removing the expandable member, wherein the expandable member is a sleeve comprising relatively rigid lid and bottom plates, that these are fixed in relation to each other by means of a spacer element and that it expandable body is provided with elastic walls. Other features of the invention appear from the subclaims.

The invention will be described in more detail below with reference to to the accompanying drawings, in which Fig. 1 shows a longitudinal section along line I-I in Fig. 2 of the lower end of a drill pipe and the attachment therein the arrangement according to the invention with attached sampler tubes. Fig. 2 vi- a cross-section along the line II-II in Fig. 1 through the drill pipe and according to the invention. Figs. 3 and 4 show length and cross section corresponding to Figs. 1 and 2 of an alternative embodiment of the invention.

Figs. 1 and 3 are partly broken for the sake of clarity.

In geotechnical sampling by means of the device according to the invention a drill pipe 10 is driven into the ground by percussion drilling and / or rotary drilling. The drill pipe 10 is provided in a conventional manner with a cemented carbide cone 12 (cemented carbide teeth) at its lower end. (At 461 236 rotary drilling, the shoe 12 may contain diamonds). Water or other suitable medium is flushed through the tube 10 to remove the release and crushed material under the drill pipe 10. The flushing medium has been marked with filled black arrows on the drawings.

A sampler in the form of a sampler tube 14 is arranged in the drill pipe 10 at its lower part. The sampler tube 14 is at its lower part ' equipped with a catcher 16. This can have a number of upwards / inwards bent teeth 18. A gap 20 for the flushing medium is left between the sampler tube 14 and the wall of the drill pipe 10. When driving the drill pipe 10 into the ground, it collects material in the sampler tube 14. The material constituting the desired sample is is retained in the tube 14 by the catcher, when the sampler tube 14 is picked up through the drill pipe 10.

According to the invention, an expandable member is provided in the drill pipe. The expandable member has the shape of an elongate member cylindrical sleeve 22 (22.1 in Fig. 1 and 22.2 in Fig. 3), which comprises a lid forming plate 24 (24.1 and 24.2, respectively) and a bottom plate 26 (26.1 and 26.2, respectively) of a relatively rigid material, such as metal. The sleeve has a cylindrical wall 28 (28.1 and 28.2, respectively) of a relatively elastic materials, such as rubber, plastic, etc. The lid 24 and bottom 26 of the sleeve 22 are connected by means of a strut 30 so that the bottom 26 and the lid 24 should kept at a constant distance from each other.

The sampler pipe 14 with the sleeve 22 is passed through the drill pipe during assembly 10 to stop stops 32 formed at its lower edge.

The lower edge of the sampler tube 14 is located above and in protection of the cemented carbide cone 12. For holding the sampler tube in this position an overpressure is generated in the sleeve 22, so that its wall 28 expands and goes to abut against the inner wall of the drill pipe 10. The sampler tube is held by means of this thus formed friction grip in the desired position below the demolition in the ground of the drill pipe 10 and the capture of material in sampler tube 14. When the individual sampling is completed and the sampler is filled, the pressure in the sleeve 22 is reduced and it is pulled together with the sampler 14 out through the drill pipe 10, while this remains in the the borehole. The sampler 14 is emptied and returned to its position at the lower end of the drill pipe 10 for further sampling. 461 236 One can imagine different designs of the expandable sleeve 22. According to the embodiment shown in Fig. 1, a conduit 34 for pressure medium connected to the sleeve 22.1. The pressure medium can, as indicated is indicated in Fig. 1, consists of air or some other gas, but it is also conceivable to use a liquid. Via line 34 any pressure medium is added sleeve 22.1 for generating an overpressure and away from sleeve 22.1 for reducing the pressure, so that the sleeve 22.1 is connected to the sampler tube 14 can be carried out through the drill pipe 10.

In the exemplary embodiment according to Figs. 1 and 2, the wall 22.1 of the sleeve is 28.1 formed with an outwardly folded cross-sectional shape, so that channels 36 for the flushing medium is formed between the sleeve 22.1 and the wall of the drill pipe 10.

It is possible to generate an overpressure in the sleeve 22 by this before its lowering into the drill pipe 10 is prepared with a pressure cartridge, a pressure bottle or the like. When the catcher 16 has reached the desired position, the the pressure cartridge (eg by opening a valve) and an overpressure generated in the sleeve 22. The pressure is reduced after sampling in the sleeve 22 by means of a remote-controlled valve or similar in one of the plates 24.1 and 26.1.

Figures 3 and 4 show a further embodiment of the invention. ningen. According to this embodiment, inlet holes 38 are received in the lid 24.2, through which the flushing medium is led into the sleeve 22.2. Sleeve 22.2 bottom plate 26.2 is provided with outlet openings 40 for the rinsing medium (which has been marked with filled arrows). The joints of the outlet openings 40 laid passage area is smaller than that of the inlet openings, so that a pressure increase is generated in the sleeve 22.2 when conducting the rinsing medium through it. Hyl- san 22.2 is held in the desired position in the drill pipe 10. The flushing medium flows in this embodiment through the sleeve and its outer wall need therefore not folded to form channels but can be designed smooth.

The pressure in the sleeve 22.2 is reduced by throttling or shutting off the coil the medium.

To achieve better holding of the sleeve 22 in the drill pipe can its inside is formed with superficial grooves 42 (see Fig. 3). These grooves does not weaken the drill pipe and can be used on all described embodiments of the invention. 461 256 Figs. 1 and 3 show in principle means 44 for operating the sleeve 22 with associated sampler 14. These means are suitably designed according to known technology.

The design of the device according to the invention entails, as has stated in the description that the sampler 14 is securely held in the drill the pipe 10 below it is driven down into the ground by means of blows and / or rotary drilling. By means of the elastic attachment of the sampler 14 a joint is obtained which withstands impacts better than a rigid mechanical joint. strip and is therefore better suited for use in percussion drilling.

The above-described embodiments of the invention are to be considered only as examples and many other embodiments are conceivable within the scope of the appended claims. Selection of flush and pressure medium can be made in the circumstances.

Claims (5)

461 236 P A T E N T K R A V A geotechnical sampling device, which device is intended to be mounted in a drill pipe (10) and comprises a sampler pipe (14) for taking a sample, characterized in that an expandable member (22) is arranged in connection to the sampler tube (14), that means are provided for controlled production of both a pressure increase and a pressure decrease in the expandable member (22). that the expandable member (22) is arranged to abut against the wall of the drill pipe (10) during the pressure increase to form a frictional grip therewith and that means (44) are arranged to remove the expandable member, the expandable member the member consists of a sleeve (22), which comprises relatively rigid lid and bottom plates (24 and 26, respectively), that these are fixed relative to each other by means of a spacer element (30) and that the expandable member is provided with elastic walls (28 ). Device according to claim 1, characterized in that the elastic wall (28.1) of the expandable member (22.1) is formed with a pleated outside for forming channels (36) at the tube wall for the formation of flushing medium. Device according to any one of the preceding claims, characterized in that the expandable member (22.2) is provided with inlet openings (38) for flushing medium in its lid plate (24.2) and with outlet openings (40) in its bottom plate (26.2) and that the total passage area at the outlet openings (40) is smaller than at the inlet openings (38). Device according to one of Claims 1 or 2, characterized in that a separate line (34) for pressure medium is connected to the expandable member (22.1). Device according to any one of claims 1 or 2, characterized in that the expandable member is prepared with a print cartridge, that means are arranged to release this print cartridge to generate an overpressure in the expandable member. 'rf