SE445782B - SET AND DEVICE FOR TAKING EARTH SAMPLES - Google Patents

Description

15 20 25 30 35 8200523-2 test line. So far, however, the sampling of the soil core has been done manually, which has not given any satisfactory reproducibility of the sampling process and has also otherwise entailed a number of disadvantages. The manual sampling of the desired, suitable sample volume, for example about 20 cm3, has taken place by scraping with a tool from the different levels of the soil core, which, apart from the disadvantage that sampling has taken a long time, has not given any precision in sampling. Thus, the scraped sample volume has varied greatly depending on the difficulty of estimating the correct volume and due to that the accompanying lumps of soil, stones, etc. have increased in volume uncontrollably. Nor has it been possible to determine exactly the levels at which the selection took place. In order to shorten the handling time, the extraction has to take place at the same time as the drilling equipment is moved between the drilling sites across the field, but this further impairs the precision as the work has to be carried out at the same time as the machine moves over the uneven ground. A further disadvantage is that the remainder of the occupied earth core after sampling must be removed from the drill steel before the next drilling takes place. This manual removal of the remnants of the former soil core is also time-consuming and cumbersome.

The main object of the invention is therefore to provide a method and a device for taking soil samples in which these disadvantages are eliminated, so that the sampling speed can be significantly increased and the precision improved, whereby the reliability of the produced test result is significantly improved. These objects are achieved in that the method and the device according to the invention have obtained the features stated in the following claims.

The invention will be described in more detail below in connection with a preferred embodiment of a device for carrying out the sampling method. Fig. 1 shows in perspective the essential part of the sampling unit and parts included therein. Fig. 2 shows in perspective the back of a part of a casing in Fig. 1 which was used to enclose the accommodated earth core and the sampling mechanism arranged on the back of the casing. Fig. 3 shows a longitudinal section through the drill steel enclosed by the casing and one of the sampling mechanisms arranged on the casing.

The sampling assembly shown in Fig. 1 comprises a bottom plate 10 which carries a tubular guide 12 and two uprights 14 and 16. The guide 12 is arranged over a circular hole (not shown) in the bottom plate 10 and the inner diameter of the guide and hole corresponds to the outer diameter. on the drill or screw 18 of the sampling unit, which is described in more detail below. The posts 14, 16 constitute guide guides for a slide 20, which is displaceable along the longitudinal direction of the posts 14, 16 and which in turn carries a drill head 22. In the drill head 22, the rear, square end part 24 of the drill 18 is rotatably mounted in a bearing 26, which also contains a drive connection, such as a gear or chain transmission from a drive motor 28 also arranged on the drill head 22, for example a hydraulic motor. Connected to the upper end 30 of the slide 20 is an operating device (not shown), for example a hydraulic cylinder, which during operation is arranged to displace the slide 20 and thus the drill head 22 and the drill 18 arranged thereon with the drive motor 28 along the longitudinal direction of the posts 14, 16 for lowering and lifting the drill.

The slide 20 is shown in Fig. 1 in its uppermost position and when the slide 20 is moved downwards in the figure, the drill 18 will pass through the guide 12 and the hole in the bottom plate 10 and down into the underlying ground, while the drill 18 is rotated via the drive motor 28 for drilling. of a core of earth.

It must be clear that the drilling unit shown is suitably arranged on a means of transport, such as a wagon or a self-propelled vehicle, in order to be able to be easily moved over the field where the samples are to be taken. The vehicle should then be of the type which has a low ground pressure, which is usually achieved by the vehicle having a plurality of wheels such as six, eight or more which have a wide abutment surface against the ground. Of course, tracked vehicles or the like can also be used to carry the sampling equipment, as shown in Fig. 1. The posts 14, 16 and the drill 18 have a suitable length for picking up a core of soil from the desired depth in the field, for example from about 1 m: s deep. After drilling, the drill 18 is pulled up with the soil (earth core) remaining in the threads with the aid of the slide 20 and the hydraulic cylinder connected thereto. As the drill 18 passes through the guide 12 of the plate 10, the soil outside the threads of the drill 18 will be ironed off, so that a soil core with the same outer diameter as the thread is obtained.

For sampling the desired samples from the drawn earth core, a sampling mechanism is provided which comprises two tube halves 32, 34 which are attached to shafts 36, one of which is shown in Fig. 1. The shafts 36 are in turn pivotally mounted in brackets 38. attached to the posts 14, 16 of the drilling unit, the pipe halves 32, 34 are pivotable by an operating mechanism (not shown) from the open position shown in Fig. 1 to a position where they enclose the drill 18 and the occupied earth core (see Fig. 3). The pipe halves 32, 34 thus, as shown in Fig. 3, in their folded position enclose the drill 18 and the earth core with extremely little play. In this way, the occupied soil core will be maintained to the extent and shape it had in the soil before the uptake and the sampling can take place without any soil falling off or changing position.

For sampling soil samples from the enclosed soil core, a number of inserts 40, 42 were used, in the case shown three pairs of inserts, which are movable in the vertical direction, ie. in the longitudinal direction of the drill 18. In order for this movement along the earth core to be possible, the threads of the drill 18 have a number of recesses 44, which are located opposite each other seen in the longitudinal direction of the drill. These recesses 44 have such a much larger width than the inserts 40, 42 that the inserts can pass freely through the recesses 44. The inserts 40, 42 project W 15 szoosza-2 through slots 46 in the tube half 34, on which recess mechanism is provided, and is moved along the slot 46 by a mechanism, which is described in more detail below.

In order for the soil samples to be taken in the manner described, the recesses 44 of the drill 18 must lie in the middle of the slots 46 in the pipe half 34. This is achieved by means of a wing 48 arranged on the upper square end part 24 of the drill, which wing 48 at stationary drill 18 is arranged to lie in the plane of the dividing surface between the pipe halves 32, 34, when these are pivoted into the position 18 enclosing the drill 18. The prerequisite for this to work is that the wing 48, when the rotation of the drill frame 18 is stopped, stops somewhere at an angle of a total of about 120 ° around this plane, which is achieved by bringing the drill motor 28 of the drill 18 when the drill is pulled up by limit switches stay within said angular range. When the pipe halves 32, 34 are subsequently brought together, the wing 48 will hit the edge of one of the pipe halves and be brought to the position described above in the dividing plane between the pipe halves, whereby the position of the screw 18 is precisely defined in relation to the seats 46 and the crowd. 4o, 42. The position is also secured by fixing the square end part 24 in corresponding recesses in the pipe halves. To enable rotation of the drill to said position after the drive motor 28 has been stopped, the pressure fluid circuit to the drive motor 28 is suitably provided with a relief valve.

The displacement of the inserts 40, 42 in the vertical direction, i.e. along the drill 18, takes place with the aid of a hydraulic cylinder 52 with piston rod 54 which cylinder 52 is mounted in a bracket 50 arranged on the tube half 34. The piston rod 54 is, as can be seen in more detail in Fig. 2, connected to a bearing bracket 56. - arranged on a plate 58, which supports the top removal mechanism. The plate 58 is attached to square tubes 60 which are slidable on guides 62 which in turn are attached to the tube half 34 by means of arms 64 (Fig. 1). At an even distance after the square tubes 60, two additional mounting plates 66, 68 are arranged for two further removal mechanisms. Since all three extraction mechanisms on the plates 58, 66, 68 are the same, only one of these will be described in the following in connection with Figures 2 and 3.

Beneath the plate 58 is rotatably mounted a bracket 69, which at its lower end carries the inserts 40, 42 which project through the slot 46 in the tube half 34. The bracket 69 is held in the position shown in Fig. 3 by means of a spring 70 arranged between the outer end of the plate 58 and the lower part of the bracket 69. The position of the bracket 69 relative to the plate 58 can be adjusted by means of adjusting screws 72, 74, as shown in Fig. 3. The resilient suspension allows the bracket 69 with the inserts 40, 42 to be spring away against the force of the spring 70 around the point of pivot in the event that the inserts 40, 42 in the upward movement of the mechanism along the slot 46 would hit a rock or other hard object in the earth core. In the described removal mechanism works as follows: after the pipe halves 32, 34 are closed around the drill 18 and the core of the drill threads, the hydraulic cylinder 52 is actuated so that the square tubes 60 and the removal mechanisms thereon move upwards along the guides 62 along the drill 18. The upper insert 40 thereby cuts away an approximately 7 mm deep soil layer which, via the upper side of the insert 40 and a gutter 76 of sheet metal or the like arranged at the end of the drill 40, is led to a position outside the mechanism and falls off. This soil layer which lies at the surface of the soil core and which contains impurities and surface soil (topsoil) is not to be included in the sample, so it is removed with the insert 40 in the manner described. The lower insert 42 cuts a further 10 mm deep and 190 mm long, thereby removing a soil sample, which along the upper side of the insert 42 is led to and falls into a replaceable box or carton 78 which is arranged below the end of the insert 42, for example on a holder 80 The 3 extraction mechanisms shown are suitably arranged so that the inserts take samples from the soil core within ranges corresponding to 0 ~ 25, 25 - 50 and 50 - 75 cm 2 depth in the ground. After the soil samples have been taken, the tube halves 32, 34 are pivoted apart to the position shown in Fig. 1 and the hydraulic cylinder 52 returns the extraction mechanisms to the lower position also shown in Fig. 1. While the vehicle or vehicle with the drilling equipment is being moved to the next sampling point, the remains of the earth core must be removed, which is conveniently done by means of a per se known percussion device 82, which is shown schematically above the upper end 24 of the drill 18 and which strikes axially. the drill, whereby the remaining earth core is effectively removed from the threads. _ From the above it appears that a sampling unit has been created which provides a number of advantages. The confinement of the soil core during sampling provides the greatest certainty that the sample accurately reflects the conditions at the corresponding location in the soil. When the samples are taken vertically, a representative sample is obtained after the entire level despite a small sample volume, at the same time as the sampling at several, carefully delimited levels provides the opportunity for separate evaluation of the samples.

The sample volume taken each time, approx. 20 cm3, which is determined by the dimensions of the insert 42, becomes very accurate as no lumps of soil or the like can affect the sampling, which thus becomes insensitive to the nature of the soil. Although the unit has been described as driven by pressure fluid, such as hydraulic fluid, it is clear that other sources of drive are conceivable, such as manual operation of the mechanisms. It is thus clear that the embodiment shown and described is only an example of the application of the invention and that this can be changed and varied within the scope of the appended claims.

Claims (11)

8200523-2 Patent claims Method for taking soil samples, in which a soil core is taken from the soil to be examined and a part of the soil is removed from the core for the following analysis or other post-treatment, characterized in that the soil core is taken with the aid of a drill which during rotation is immersed to the desired depth in the ground, that the drill with the earth core contained therein is pulled out of the ground without rotation and in connection with the uplift out of the ground is enclosed in a casing in which the earth core is substantially maintained in the shape and position of the earth core in the ground before uptake. , that soil samples with the desired volume are taken through openings in the casing at predetermined places according to the longitudinal direction of the drill and that the soil samples taken are collected for further treatment or analysis. 2. A method according to claim 1, characterized in that the sampling of the soil samples takes place in the vertical direction according to a desired height. 3. A method according to claim 1 or 2, characterized in that soil samples are taken simultaneously at several levels of the soil core. An apparatus for carrying out the method according to any one of claims 1-3, comprising an apparatus, such as a drill; for receiving a soil core and means for removing a part of the soil from the core in the form of a soil sample, characterized by a housing (32, 34) arranged to enclose the drill (18) and the one in the drill. the housing core in connection with the uptake, which housing (32, 34) is provided with openings (46) through which a number of inserts (40, 42) are insertable and movable in recesses in the threads of the drill relative to the longitudinal direction of the drill and the core for desired soil sample whose volume is determined by the dimensions of the insert. Device according to claim 4, characterized in that the housing has the shape of two pipe halves (32, 34) which are pivotable between an open position where the pipe halves are separated and a closed position in which the drill (18) is enclosed. 8200523-2 Device according to claim 4 or 5, characterized in that the drill (18) can be raised and lowered on a frame (10) provided with a guide (12) for the drill, which guide also serves as a scraper. for material outside the drill threads. Device according to one of Claims 4 to 6, characterized in that the inserts (40, 42) are arranged in pairs, a first insert (40) having a shorter length than a second insert (42) and that the the first insert scraped off the soil is led away from the sampling device while the second insert (42) communicates with a container (78) for the soil sample. Device according to one of Claims 4 to 7, characterized in that removal mechanisms (58, 66, 68) are arranged to support the inserts (40, 42), which removal mechanisms are movable vertically along the height (32, 42). 34), the inserts projecting through vertical seats (46) into the height and the threads of the drill (18) being provided with corresponding seats (44), the drill having the stop member (48) which stops the drill in a precisely defined iäge mitt för hö1jets (32, 34) sïitsar (46). » Device according to claim 8, characterized in that the stop means (48) comprise a wing arranged on the shaft of the drill (18) which is arranged by guide surfaces on the height (32, 34) to be brought into a position where the seats (44) of the drill lie opposite the height of the height (46), wherein limit switches are arranged to stop the drill (18) within an angle area where the wing (48) is struck by the guide surfaces of the height, when the height (32, 34) is brought to the surrounding surface of the drill. Device according to one of Claims 4 to 8, characterized in that the inserts (40, 42) are arranged on a hollow device (58, 66, 68), which is resilient for pulling out the inserts from the sides of the height ( 46) when the inserts hit a hard object. . 82ÛÛ525 = ° 2 10 Device according to any one of claims 4 to 10, characterized by a sieve device (82) arranged to face the end portion (24) of the drill (18) to remove soil residues therefrom. ih C.