EP0108157A1 - Sampling device for taking undisturbed soil samples - Google Patents

Abstract

The device which can be driven downwards by rotary movement has a sample container (6) in the tool housing (3) and a piston (1) transmitting the rotary movement. A so-called spiral leaf (5) runs in a helical line on the outside surface, while a cutting head (4) is provided on the lower section of the housing. The essence of the device is that the shank (1a) of the piston of the sampling device is constructed with polygonal cross-section. The sample container (6) is, however, built into the sampling tool in a manner such that it remains in the rest position even during the rotation. Provided at the top of the housing (3) is a blocking device (2) which makes the connection between the latter and the piston shank (1a) but permits a displacement of the piston shank (1a). In order to connect the blocking device (2) to the piston shank (1a) the latter is provided with a lower fixing groove (1d) and an upper fixing groove (1c) at two suitable connecting points. <IMAGE>

Description

The invention relates to a sampling device for taking undisturbed samples from underground soil layers for the purpose of determining their quality parameters. The device has a tool that penetrates the soil to be examined when rotating and takes a soil sample from the soil at the desired depth. Inside the housing of the sampling tool there is a sample box for taking the soil sample taken, and a piston for transmitting the rotary movement of the drill pipe to the tool housing, while a so-called spiral blade, which is arranged in a helical line with a large pitch, is attached to the outer surface of the housing. A cutting head is connected to the lower part of the housing of the sampling device, which - in order to facilitate penetration into the ground - is provided with appropriately exchangeable cutting edges of great hardness.

In geotechnical surveys, the task is often to take soil samples that provide the necessary information about the stratification of the soil - the subsoil - its strength, water content and other physical parameters. This data is essential for performing soil mechanical calculations, e.g. for dimensioning foundations.

The samples taken from the soil can be divided into two groups: "disturbed" and "undisturbed" rock samples. In many cases it is very important that the sample faithfully reproduces the conditions of the grown soil. However, undisturbed samples are required for this.

Of the numerous known sampling devices, only the modern variants developed in the last decade are to be discussed here. A typical example of these is described in Fit-PS 2 036 451. This device has a thin-walled sampling tool, which is pulled down to the desired depth when pulled out brought tool the hydraulic "pulling off" the sample. The two small working cylinders of the device press in the binder under the sample, creating an artificial base for the sample. A deficiency of the device is that it can only be brought down when it is open and can therefore only be used in stable holes with solid soil. Otherwise, special piping is required to allow the sampling device to be installed.

Another device for taking soil samples is described in CH-PS 485 072. Its essence consists of a series of sampling chambers that can be attached to each other at any distance on a drill pipe. The device is brought down by turning the drill pipe clockwise. The sampling chambers are provided with such "windows" that open when the device is turned counterclockwise. When the tool has reached the required depth, the windows open when the tool is turned in reverse, and the chambers take the samples from the opposite borehole wall. After sampling, the windows are closed by rotating in the original direction of rotation, and the samples now remain in the chambers. Despite this ingenious solution, the device has not proven itself because the windows take the samples by machining, and therefore only "disturbed" samples can be brought up.

The drilling device used for taking soil samples, which is described in CH-PS 534 781, operates according to another working principle. The device, which is equipped with a light metal insert, has a drill bit and a test limiting insert. As usual, penetration into the ground takes place by rotating and advancing the device. Its upper part can be opened and this enables the sample limiter to be installed and removed. The device is widely _b rode double-walled core drilling tubes for sampling similarly. However, its unfavorable property is that it cannot be lowered into the soil layer to be tested when it is closed. Therefore, when the sample is settled, soil particles can fill up and in many cases only a disturbed sample can be achieved.

The best developed variant of the known solutions is contained in DE-AS 2 307 040. This device is used for taking core samples. Its essence is the double-walled drill pipe, which is connected to one another by external sleeves. The outer tube jacket is provided with a "spiral blade". The cutting edge can be removed at the point of sampling by turning the rod counterclockwise. If the cutting edge in front of the sampling tool is removed in this way, the sampling can be controlled and carried out from above with the help of the inner sampling tool. The disadvantage is that the sampling device is complicated and expensive. The reason for this is that both the outer and the inner tool have to be designed in such a way that they cannot be used for other drilling work, so that they are considered special accessories. It is also unfavorable that the connection for sampling must be made via the linkage. However, this is disadvantageous for the linkage, which also has other functions.

The aim of the invention is to eliminate the above-mentioned shortcomings of the known sampling devices, ie to create such a device which in any case can bring up a soil sample which is clearly to be regarded as undisturbed, from practically any depth. The task also includes the condition that when the tool penetrates deeper into the ground, not a single part of it may have a compacting effect on the surrounding ground, and also that on the outer surface of the collector insert only a smaller friction resistance may occur than on the side facing the soil sample, so that the soil sample taken - regardless of the rotating movement of the device - remains in the idle state at all times.

The basic idea of the invention is the knowledge that the sampling device is expediently to be designed like a piston, but that the piston skirt and the rod connection should have a polygonal cross section, while the sample can must be inserted in the housing of the sampling device in such a way that it also remains stationary when the device is turned Position remains; furthermore, such spiral blades are to be attached to the outer casing of the housing, which protect the soil sample from any compaction and are able to convey the removed soil sample in the direction of the free borehole section. The spiral blades should also be suitable for providing the supporting force required to open the piston of the sampling device.

The invention is thus a sampling device for taking undisturbed soil samples from subsoil layers for the purpose of determining the soil quality - this device being a sampling tool which can be driven down by rotating movement and which is a sample from the soil at the desired depth and which is located in the interior of the housing of the sampling tool the sampled soil container has a piston for transmitting the rotary movement from the drill pipe to the tool housing, while a spiral blade is attached to the outer casing of the housing, running in a helical line of great incline, but to facilitate penetration on the lower housing part of the sampling tool In the grown soil a cutting head reinforced with cutting edges made of very hard metal plates is provided, which is expediently exchangeable - designed in such a way that the piston shaft of the sampling tool is designed with a polygonal, for example hexagonal cross section, the sampling eyelet inside the tool housing but from this is used independently, so that the socket is in the rest position even when the housing is rotating; Furthermore, on the side of the housing facing the linkage, a locking device is also provided, which is able to produce a detachable connection between the housing and the piston skirt, but the piston skirt is displaceable in the longitudinal axis of the device, and for connection to the locking device on two different, for Suitable places for connection, conveniently near the piston head with a lower fixing groove, but for the rod coupling for connection to the drill pipe it is provided with an upper fixing groove.

As a further feature of the sampling device according to the invention, it should also be mentioned that the locking device has at least one fixing insert, which it snaps into one of the grooves on the piston shaft with the aid of a compression spring force. The one or more fixing inserts holding the locking device are encompassed by the guide insert pieces fitted into the upper housing part.

In a possible expedient embodiment of the sampling device, the lower fixed guide insert of the guide insert pieces is immovably installed in the housing, while the upper removable guide insert piece is assembled with the fixed guide insert piece and in a detachable manner - expediently by screws - with the fixing insert piece.

The sampling device according to the invention enables continuous sampling during the drilling of the sampling borehole. This is due to the fact that when closed, this device works like a drilling tool and is therefore involved in the drilling process itself.

The sampling device according to the invention is able to take professional soil samples from any depth, even below the water table, since its operation is not possible due to a possible breaking out and collapse of the borehole wall, or due to the poor condition of the soil layers is disturbed, which must be discussed when drilling the borehole.

A particular advantage of the device is that the sample can can be easily connected to a rod with a spiral blade, even to one of the usual drill rods, for carrying out the material transport, without having to make any structural changes to the sample can. The device can be equipped with different, suitable cutting heads for adaptation to the different types of soil; it can therefore be used successfully under a wide variety of soil conditions. The polygonal design of the device piston is very favorable, because in this way the housing can be easily moved with the aid of the linkage. However, the elastic fixing inserts of the locking device, which also serve to loosen or hold the piston, can easily fit into the grooves configured on the piston skirt.

• Fig.l: Längsschnitt eines Ausführungsbeispiels des Probenahmegerät gemäss der Erfindung;
• Fig.2-4: zeigen Ansichten der Einzelheiten der Lösung nach Fig. 1.

The invention will be explained with reference to the accompanying drawings. It shows:

• Fig.l: longitudinal section of an embodiment of the sampling device according to the invention;
• Fig. 2-4: show views of the details of the solution according to FIG. 1.

In Fig.l - with omission of the middle section - the sampling device according to the invention was shown in longitudinal section. In relation to a longitudinal axis 11 that runs in the middle and is usually vertically directed at work, a piston 1 is arranged in a centrally symmetrical manner. A piston shaft la of the piston 1 has a hexagonal cross section and is provided with a piston head 1b, which ends at the bottom of the device in a piston tip 1c.

A lower fixing groove ld and an upper fixing groove le are provided on the piston skirt la. With the help of these recesses, the piston skirt la of the piston 1 in two different positions with a locking device 2 and thus locked. The lower fixing groove ld is in the vicinity of the piston head 1b, while the upper fixing groove le of the piston 1 is in the vicinity of that rod connector which is used for connection to the drill rod, not shown in the drawing.

The locking device 2 consists of several components. One of these is a lower fixed guide insert 2b, which is fastened to a spacer piece forming the inner wall of a housing 3, advantageously by welding. A fixing insert 2c is arranged above the lower fixed guide insert 2b.

The fixing insert 2c that can be seen on the left-hand side of FIG. 1 is also shown separately in FIG. There is an assembly opening designed as a bore 2g, which also serves to receive the locking screws 2e. The task of the assembly opening is that after sampling has taken place, the fixing insert 2c can be withdrawn against the force of both compression springs 2d. The compression spring 2d ensures that the fixing insert 2c snaps into the lower fixing groove ld of the piston 1 or, as the position shown in FIG. 1 shows, into the upper fixing groove le. After snapping in, there is a positive connection between the piston 1 and the fixing insert 2c, for which, on the one hand, the dovetail-like incision shown in FIG. 4, on the other hand, the wedge-like configuration of the piston 1 on the lower fixing groove ld or on the upper fixing groove lc the piston 1 provides.

Part of the locking device 2 is the upper removable guide insert 2a, which, in cooperation with the lower fixed guide insert 2b, comprises the fixing insert 2e and is fixedly connected to the lower fixed guide insert 2b by screws 2f. The lower fixed guide insert 2b Locking device 2 is shown separately in FIG. 3, but the removable upper guide insert is also shown in FIG. In FIG. 2 and FIG. 3, the central openings 2h directed towards the hexagonal cross section of the shaft 1 a of the piston 1, and bores 2 i serving as the passage of the screws 2 f can be seen.

Furthermore, the connection of the piston skirt la to the piston head 1b is shown in FIG. A centering mandrel lf ensures the coaxial position of the two elements, while a seal 9, which is expediently made of hard rubber, is used to block out any moisture that may penetrate from the piston head lb. The seal 9 is pressed down by a retaining pin 8.

In Fig.l it can be clearly seen that a sample can 6 is inserted into the housing 3. The sample can 6 is installed between a cutting head 4 fastened to the lower part of the housing 3 - expediently by a screw thread - and a spacer 7. The outer circumferential surface of the housing 3 is provided with spiral blades 5 in order to further convey the soil substance loosened from the bore by machining, while those attached to the cutting head 4 are expediently provided with exchangeable and therefore adaptable to the respective soil conditions and with hard metal plates 4a Use cutting edges to bring the device down into the ground.

When using the sampling device according to the invention, the device connected to the drill pipe is held in a closed state along a rod coupling 10 to the depth desired for the sampling, and is driven down into the ground like a drilling tool about the longitudinal axis 11. At the selected depth, the device can then be opened in a very simple manner by lifting the linkage, and thus also the piston 1, upward in the axial direction along the longitudinal axis 11 becomes. During the lifting, the housing 3 remains motionless due to the position held in place by the spiral blades 5, while the sample can is opened at the bottom by pulling up the piston 1.

When the rod and thus also the sampling tool were brought down, the housing 3 and the piston 1 were in such a connection that the locking device 2 engages in the upper fixing groove le of the piston 1. However, if the piston 1 is withdrawn, the locking device 2 then engages in the lower fixing groove 1d of the piston 1. In this position, by further turning the rod and the piston 1 connected to it, the sample can 6 located in the interior of the housing 3 is also moved further down and takes up the desired soil sample. In the meantime, the soil sample is chiseled out in a circle by the cutting head 4, while the spiral blades 5 convey the chiseled soil sample upwards.

The sampling device according to the invention can therefore reliably take a truly undisturbed sample from any type of soil that can be machined with the cutting head, due to the above-described construction and its mode of operation.

Claims (4)

1. Sampling device for taking undisturbed soil samples from subsoil soil layers, which can be driven down by rotary motion and is equipped with a sampling tool that takes samples from the soil at the desired depth, but the tool housing contains a sample can inside for taking the soil sample taken, and also one Piston, which transmits the rotating movement of the drill pipe to the tool housing, while on the outer casing of the housing there is a spiral blade with a higher pitch, at the lower part of the sampling tool there is an expediently exchangeable cutting head, which has larger cutting edges for easier penetration into the ground Hardness is provided, characterized in that the shaft / la / of the piston / 1 / of the sampling tool has a polygonal cross section, the sample can / 6 / is installed in the sampling tool, regardless of the housing / 3 /, in such a way that it also during of rotating the housing / 3 / at rest and remains, furthermore, on the part of the housing / 3 / facing the drill pipe between the latter and the shaft / la / of the piston / 1 / a locking device / 2 / is attached such that it displaces the piston shaft / 1a / in the longitudinal axis / 11 / of the device for establishing or releasing the connection to the shaft / la / the piston / 1 / permitted, while the piston shaft / la / the piston / 1 / for connection in two different positions with the locking device / 2 / two suitable connection points one of which is conveniently provided in the vicinity of the piston head / lb / as the lower fixing groove / 1d /, but the other is provided for the drill coupling / 10 / for connection to the drill pipe as the upper fixing groove / lc /. 2. Sampling device according to claim 1, characterized in that the locking device / 2 / has at least one fixing insert / 2c / which can snap into the grooves / ld, le / of the shaft / la / of the piston / 1 / with the force of a compression spring / 2d. 3. Sampling device according to claim 2, characterized in that one or more fixing insert / e / / 2c / the locking device / 2 / is / are in the upper part of the housing / 3 / inserted guide inserts / 2a, 2b / are / are / . 4. Sampling device according to claim 2 or 3, characterized in that of the guide inserts / 2a, 2b / the lower fixed insert / 2b / is installed in the housing / 3 / fixed, the upper removable guide insert / 2a / but with the fixed guide insert / 2b /, and with the fixing insert / 2c / expediently fastened together by screws / 2f /.

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