CN110967214A - Sampling device for deep soil detection - Google Patents

Abstract

The invention provides a sampling device for deep soil detection, which relates to the technical field of deep soil detection sampling and comprises a supporting plate, wherein a main supporting frame is fixedly connected to the top end of the supporting plate, a top supporting frame is fixedly installed at the top end of the main supporting frame, and a lifting hole pressing mechanism is connected to the inner side of the main supporting frame. The invention has the beneficial effects that: under the effect of lift punch holder mechanism, external power supply through driving motor starts, make the first gear of connecting axle connect clockwise rotate, thereby make about two second gears carry out the direction of difference and rotate, thereby make the screw rod rotate through the bearing, however screw rod and interior threaded connection board threaded connection, when making rotatoryly, make female connection board carry out the lapse on the first spout that sets up on the main tributary strut through first slider, thereby make the drill bit on the depression bar of female connection board bottom connection set up the through-hole in through-hole and descend and drill its soil in the backup pad.

Description

Sampling device for deep soil detection

Technical Field

The invention relates to the technical field of deep soil detection sampling, in particular to a sampling device for deep soil detection.

Background

The deep soil detects, indicates to take out to the soil of the different degree of depth in the stratum and carries out detection achievement more extensively, and at daily life, general people all can use the spade to be used for shoveling out the soil of the deep department in the stratum, very big labour that consumes.

The existing sampling device for deep soil detection does not have a mechanism for drilling different depths in soil, a mechanism for preventing vibration when the device works, a mechanism for conveniently pushing the device to perform unfolding work of a moving position, a mechanism for sampling soil and a mechanism for conveniently discharging the soil.

Disclosure of Invention

Technical problem to be solved

The invention provides a sampling device for deep soil detection, aiming at overcoming the technical problems that the existing sampling device for deep soil detection does not have a mechanism for drilling different depths in soil, a mechanism for preventing vibration when the device works, a mechanism for conveniently pushing the device to perform unfolding work at a moving position, a mechanism for sampling soil and a mechanism for conveniently discharging the soil.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

a sampling device for deep soil testing, comprising: the top end of the supporting plate is fixedly connected with a main supporting frame, and a top supporting frame is fixedly arranged at the top end of the main supporting frame;

the inner side of the main support frame is connected with a lifting hole pressing mechanism, and the outer wall of the support plate is fixedly connected with a shockproof mechanism;

the outer wall of the main support frame is connected with a pushing mechanism, and the bottom end of the lifting hole pressing mechanism is provided with a sampling mechanism.

Further, inside including driving motor, and the driving motor bottom is connected with first gear, the second gear is installed to first gear one side, and the inboard fixedly connected with screw rod of second gear, the bearing is installed in the screw rod outside, and the outside threaded connection of screw rod has the female connection board, the first slider of female connection board outside fixedly connected with, and the outside sliding connection of first slider has first spout, female connection board bottom end fixedly connected with depression bar, and depression bar bottom fixed mounting has the drill bit.

Furthermore, the first gear and the screw form a transmission structure by connecting the second gear and the screw, and the screw and the main support frame form a rotation structure by a bearing.

Further, the shockproof mechanism is inside including the hand wheel, and hand wheel top fixedly connected with external screw thread pole, external screw thread pole outside screw thread is installed with female connection spare, and female connection spare bottom fixedly connected with fixed plate, external screw thread pole bottom fixed mounting has interior fly leaf, and the outside fixedly connected with second slider of interior fly leaf, and the outside sliding connection of second slider has the second spout, the outside fixedly connected with base of second spout, interior fly leaf bottom fixed mounting has first loose axle, and is connected with the movable rod outside the first loose axle, the movable rod externally mounted has the second loose axle, and second loose axle bottom fixedly connected with sliding ring, the inboard sliding connection of sliding ring has the slide bar, and the outside cover of slide bar is equipped with the spring.

Furthermore, the inner movable plate forms a movable structure through the first movable shaft, the movable rod, the second movable shaft and the sliding ring, and the sliding ring forms an elastic structure through the sliding rod, the spring and the base.

Further, inside including U type push rod, and the third loose axle of U type push rod outside fixedly connected with, U type push rod bottom fixed mounting has the fourth loose axle, and fourth loose axle external connection has the bracing piece, the fifth loose axle is installed in the bracing piece outside, and fifth loose axle external connection has the third slider, third slider outside sliding connection has the third spout, and the third spout outer wall has been seted up and has been run through the groove, run through inslot portion swing joint has the external screw thread post, and external screw thread post outside threaded connection has hand nut.

Furthermore, the U-shaped push rod forms a movable structure through a fourth movable shaft, a support rod, a fifth movable shaft and a third slide block, and the third slide block forms a locking structure through a third sliding groove, a through groove, an external thread column, a hand-screwed nut and a main support frame.

Further, the inside annular plate that is included of sampling mechanism, and the inside groove of having seted up of annular plate, annular plate outer wall fixedly connected with go-between, and the inside internal thread hole of having seted up of go-between, the inboard threaded connection of internal thread hole has the screw.

Further, the annular plate block forms a detachable structure through the connecting ring, the internal thread hole, the screw and the pressure rod, and the annular plate block forms an integrated structure through the open groove and the inner groove.

Three beneficial effects

The invention provides a sampling device for deep soil detection. Compared with the prior art, the method has the following beneficial effects:

1. the sampling device for deep soil detection is started by an external power supply of a driving motor under the action of a lifting hole pressing mechanism, so that a first gear connected with a connecting shaft rotates clockwise, a left second gear and a right second gear rotate in different directions, a screw rod rotates through a bearing, the screw rod is in threaded connection with an internal thread connecting plate, the internal thread connecting plate slides downwards on a first chute formed in a main support frame through a first sliding block while rotating, a drill bit on a pressure rod connected with the bottom end of the internal thread connecting plate descends in a through hole formed in a support plate to drill soil of the internal thread connecting plate, friction force is generated between the drill bit and the soil in the process of pressing downwards, the sampling mechanism can sample the soil conveniently, and the drill bit can drill into soil strata of different depths through the arrangement to sample, thereby being convenient for take out the soil of its different degree of depth and detect work.

2. The sampling device for deep soil detection is characterized in that under the action of a shockproof mechanism, when the whole device is pushed to a working area through a universal wheel connected with the bottom by a pushing mechanism, a connected external threaded rod can be clockwise rotated by a hand wheel, so that the external threaded rod rotates in an internal threaded connecting piece, and simultaneously the external threaded rod rotates in an opening formed in a fixed plate, so that a base connected with the bottom end of the external threaded rod integrally descends, and the base is contacted with the ground, however, under the action of a sliding ring connected with a second movable shaft connected with a movable rod connected with a first movable shaft connected with the bottom end of an internal movable plate arranged in the base, the sliding ring can generate an elastic action with a sliding rod through a spring, when the internal movable plate receives pressure, the internal movable plate slides downwards on a second sliding chute formed in the inner wall of the base through a second sliding block, thereby make the first loose axle that interior fly leaf bottom is connected support and press the movable rod and pass through the second loose axle and rotate downwards, then the second loose axle supports to press the smooth ring and slide to one side of spring this moment, can carry out effectual bradyseism effect under the reaction force of spring to avoid the device to take place the phenomenon of violent shake when going deep into the soil horizon and take a sample work.

3. The sampling device for deep soil detection can rotate the U-shaped push rod through the third movable shaft under the action of the pushing mechanism when the device needs to be pushed integrally, in the rotating process, the U-shaped push rod can pull a third slide block connected with the fifth movable shaft to slide upwards on a third slide groove formed in the outer wall of the main support frame through a support rod connected with the fourth movable shaft, when the U-shaped push rod is parallel to the top surface of the main support frame, a hand nut can be locked on an external thread column connected with a third slide block in a through groove formed in the outer wall of the third slide groove, so that the hand nut can be abutted against the outer wall of the through groove, the third slide block is fixed with the third slide groove, the U-shaped push rod is fixed with the top surface of the main support frame in a parallel state, and a worker can conveniently push the device to move the position, therefore, the deep soil sampling work is carried out, and the working efficiency of the deep soil sampling is effectively improved.

4. This sampling device that dark soil detected, under sampling mechanism's effect, the annular plate piece is along with the together decline of drill bit, the annular plate piece is along with the drill bit gets into when soil in, because take place huge frictional force between the soil with it, make it in to make the whole atress of soil support tight annular plate inside offers the inside groove, thereby take a sample to soil in its dark soil, however when the soil sample that takes out unearths, then can dismantle the screw that is connected in its link intra-annular threaded hole, thereby can dismantle its annular plate, take out its soil of taking out and detect work, through such setting, be convenient for after taking a sample to its soil, and can make things convenient for the staff to carry out the work of unloading after taking a sample to its soil.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a sampling device for deep soil testing according to the present invention;

FIG. 2 is a schematic three-dimensional expanded view of the drill bit of the present invention;

FIG. 3 is an enlarged schematic view of the structure of the present invention at A;

FIG. 4 is an enlarged schematic view of the present invention at B;

FIG. 5 is an enlarged schematic view of the present invention at C.

In the figure: 1. a support plate; 2. a main supporting frame; 3. a top support frame; 4. a lifting hole pressing mechanism; 401. a drive motor; 402. a first gear; 403. a second gear; 404. a screw; 405. a bearing; 406. an internal thread connecting plate; 407. a first slider; 408. a first chute; 409. a pressure lever; 410. a drill bit; 5. a shock-proof mechanism; 501. a hand wheel; 502. an externally threaded rod; 503. an internal threaded connector; 504. a fixing plate; 505. an inner movable plate; 506. a second slider; 507. a second chute; 508. a base; 509. a first movable shaft; 510. a movable rod; 511. a second movable shaft; 512. a slip ring; 513. a slide bar; 514. a spring; 6. a pushing mechanism; 601. a U-shaped push rod; 602. a third movable shaft; 603. a fourth movable shaft; 604. a support bar; 605. a fifth movable shaft; 606. a third slider; 607. a third chute; 608. a through groove; 609. an externally threaded post; 610. screwing the nut by hand; 7. a sampling mechanism; 701. an annular plate; 702. an inner tank; 703. a connecting ring; 704. an internally threaded bore; 705. and (4) screws.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides a sampling device for deep soil detection, and solves the technical problems that the existing sampling device for deep soil detection does not have a mechanism for drilling different depths in soil, a mechanism for preventing vibration during working of the device, a mechanism for conveniently pushing the device to perform moving position unfolding work, a mechanism for sampling soil and a mechanism for conveniently discharging the soil.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Example 1: referring to fig. 1-5, a sampling device for deep soil detection comprises: a supporting plate 1, a main supporting frame 2, a top supporting frame 3, a lifting hole pressing mechanism 4, a driving motor 401, a first gear 402, a second gear 403, a screw rod 404, a bearing 405, an internal thread connecting plate 406, a first slide block 407, a first slide groove 408, a press rod 409, a drill 410, a shockproof mechanism 5, a hand wheel 501, an external thread rod 502, an internal thread connecting piece 503, a fixed plate 504, an internal movable plate 505, a second slide block 506, a second slide groove 507, a base 508, a first movable shaft 509, a movable rod 510, a second movable shaft 511, a slide ring 512, a slide rod 513, a spring 514, a pushing mechanism 6, a U-shaped push rod 601, a third movable shaft 602, a fourth movable shaft 603, a supporting rod 604, a fifth movable shaft 605, a third slide block 606, a third slide groove 607, a through groove 608, an external thread column 609, a hand nut 610, a sampling mechanism 7, an annular plate 701, an internal groove 702, a connecting ring 703, an internal thread, the top end of the supporting plate 1 is fixedly connected with a main supporting frame 2, and the top end of the main supporting frame 2 is fixedly provided with a top supporting frame 3;

the inner side of the main support frame 2 is connected with a lifting hole pressing mechanism 4, the outer wall of the support plate 1 is fixedly connected with a shockproof mechanism 5, and the shockproof mechanism 5 can effectively perform effective shockproof work on the whole device when the shockproof mechanism works;

the outer wall of the main support frame 2 is connected with a pushing mechanism 6, the pushing mechanism 6 is convenient for pushing the whole device to move, so that workers can sample the soil in different areas, and a sampling mechanism 7 is installed at the bottom end of the lifting hole pressing mechanism 4.

Inside including driving motor 401 of lift pressure hole mechanism 4, and driving motor 401 bottom is connected with first gear 402, second gear 403 is installed to first gear 402 one side, and the inboard fixedly connected with screw rod 404 of second gear 403, bearing 405 is installed in the screw rod 404 outside, and the outside threaded connection of screw rod 404 has female connection board 406, the first slider 407 of female connection board 406 outside fixedly connected with, and the outside sliding connection of first slider 407 has first spout 408, female connection board 406 bottom fixedly connected with depression bar 409, and depression bar 409 bottom fixed mounting has drill bit 410, and first gear 402 of driving motor 401 connecting shaft clockwise rotates to two second gears 403 carry out different directions and rotate about making.

The first gear 402 forms a transmission structure by connecting the second gear 403 with the screw rod 404, the screw rod 404 forms a rotation structure with the main support frame 2 by the bearing 405, the screw rod 404 rotates by the bearing 405, however, the screw rod 404 is in threaded connection with the internal thread connecting plate 406, so that the internal thread connecting plate 406 slides downwards on the first sliding groove 408 formed on the main support frame 2 by the first sliding block 407 while rotating.

The anti-vibration mechanism 5 is internally provided with a hand wheel 501, the top end of the hand wheel 501 is fixedly connected with an external threaded rod 502, the external threaded rod 502 is externally provided with an internal threaded connector 503 through threads, the bottom end of the internal threaded connector 503 is fixedly connected with a fixing plate 504, the bottom end of the external threaded rod 502 is fixedly provided with an internal movable plate 505, the outside of the internal movable plate 505 is fixedly connected with a second slider 506, the outside of the second slider 506 is slidably connected with a second sliding groove 507, the outside of the second sliding groove 507 is fixedly connected with a base 508, the bottom end of the internal movable plate 505 is fixedly provided with a first movable shaft 509, the outside of the first movable shaft 509 is connected with a movable rod 510, the outside of the movable rod 510 is provided with a second movable shaft 511, the bottom end of the second movable shaft 511 is fixedly connected with a sliding ring 512, the inside of the sliding ring 512 is slidably connected with a sliding, the externally threaded rod 502 is caused to rotate within the internally threaded connector 503.

The inner movable plate 505 forms a movable structure through a first movable shaft 509, a movable rod 510, a second movable shaft 511 and a sliding ring 512, the sliding ring 512 forms an elastic structure through a sliding rod 513, a spring 514 and the base 508, and the inner movable plate 505 can slide up and down on a second sliding groove 507 formed in the base 508 through a second sliding block 506.

The pushing mechanism 6 comprises a U-shaped push rod 601 inside, a third movable shaft 602 is fixedly connected to the outer side of the U-shaped push rod 601, a fourth movable shaft 603 is fixedly mounted at the bottom end of the U-shaped push rod 601, and the outside of the fourth movable shaft 603 is connected with a supporting rod 604, the outside of the supporting rod 604 is provided with a fifth movable shaft 605, and a third sliding block 606 is connected to the outside of the fifth movable shaft 605, a third sliding groove 607 is connected to the outside of the third sliding block 606 in a sliding manner, and the outer wall of the third sliding groove 607 is provided with a through groove 608, the inside of the through groove 608 is movably connected with an external threaded column 609, and the external thread of the external thread column 609 is connected with a hand nut 610 through the external thread, the U-shaped push rod 601 is rotated through the third movable shaft 602, in the process of rotation, the U-shaped push rod 601 is made to pull the third slide block 606 connected with the fifth movable shaft 605 to slide upwards on the third slide groove 607 arranged on the outer wall of the main support frame 2 through the support rod 604 connected with the fourth movable shaft 603.

The U-shaped push rod 601 forms a movable structure through the fourth movable shaft 603, the support rod 604, the fifth movable shaft 605 and the third slide block 606, and the third slide block 606 forms a locking structure through the third sliding groove 607, the through groove 608, the external threaded column 609, the hand nut 610 and the main support frame 2, when the U-shaped push rod 601 is parallel to the top surface of the main support frame 2, the hand nut 610 can be locked on the external threaded column 609 connected with the third slide block 606 in the through groove 608 formed on the outer wall of the third sliding groove 607, so that the hand nut 610 can abut against the outer wall of the through groove 608.

The inside of the sampling mechanism 7 comprises an annular plate 701, an inner groove 702 is formed in the annular plate 701, a connecting ring 703 is fixedly connected to the outer wall of the annular plate 701, an inner threaded hole 704 is formed in the connecting ring 703, a screw 705 is in threaded connection with the inner side of the inner threaded hole 704, the annular plate 701 descends along with the drill bit 410, and when the annular plate 701 enters soil along with the drill bit 410, due to huge friction force between the annular plate and the soil, the soil is completely stressed and tightly propped against the inside of the annular plate 701, and the inner groove 702 is formed in the annular plate 701.

The annular plate 701 forms a detachable structure with the pressure lever 409 through the connecting ring 703, the internal thread hole 704 and the screw 705, the annular plate 701 forms an integrated structure with the inner groove 702 through the slot, and the annular plate 701 can be fixed with the bottom end of the pressure lever 409 through the connecting ring 703, the internal thread hole 704 and the screw 705.

According to the working principle of the embodiment of the invention, a worker can firstly push the device to a soil area to be sampled through the pushing mechanism 6, in the process, the U-shaped push rod 601 can be rotated through the third movable shaft 602, in the rotating process, the support rod 604 connected with the U-shaped push rod 601 through the fourth movable shaft 603 pulls the third slide block 606 connected with the fifth movable shaft 605 to slide upwards on the third slide groove 607 arranged on the outer wall of the main support frame 2, when the U-shaped push rod 601 is parallel to the top surface of the main support frame 2, the hand nut 610 can be locked on the external thread column 609 connected with the third slide block 606 in the through groove 608 arranged on the outer wall of the third slide groove 607, so that the hand nut 610 can abut against the outer wall of the through groove 608, the third slide block 606 and the third slide groove 607 can be fixed, and the parallel state of the U-shaped push rod 601 and the top surface of the main support frame 2 is fixed, the device is convenient for a worker to push and move the device, and simultaneously, the hand wheel 501 of the worker rotates the connected external threaded rod 502 clockwise, so that the connected base 508 descends to support the ground, and then the external power supply of the driving motor 401 is started, so that the first gear 402 connected with the connecting shaft rotates clockwise, so that the left and right second gears 403 rotate in different directions, so that the screw 404 rotates through the bearing 405, while the screw 404 is in threaded connection with the internal threaded connecting plate 406, so that the internal threaded connecting plate 406 slides downwards on the first sliding groove 408 formed on the main support frame 2 through the first sliding block 407 while rotating, so that the drill bit 410 on the pressure rod 409 connected with the bottom end of the internal threaded connecting plate 406 descends through the through hole formed in the support plate 1 to drill the soil, therefore, in the process of pressing down, friction force is generated between the sampling mechanism 7 and the soil, so that the sampling mechanism can conveniently sample the soil, and the working principle of the device is completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A sampling device that dark soil detected, characterized by, includes: the top end of the support plate (1) is fixedly connected with a main support frame (2), and the top end of the main support frame (2) is fixedly provided with a top support frame (3);

the inner side of the main support frame (2) is connected with a lifting hole pressing mechanism (4), and the outer wall of the support plate (1) is fixedly connected with a shockproof mechanism (5);

the outer wall of the main support frame (2) is connected with a pushing mechanism (6), and a sampling mechanism (7) is installed at the bottom end of the lifting hole pressing mechanism (4).

2. The sampling device for deep soil detection according to claim 1, wherein the lifting and lowering hole pressing mechanism (4) comprises a driving motor (401) inside, a first gear (402) is connected to the bottom end of the driving motor (401), a second gear (403) is installed on one side of the first gear (402), a screw (404) is fixedly connected to the inner side of the second gear (403), a bearing (405) is installed on the outer side of the screw (404), an internal thread connecting plate (406) is connected to the outer portion of the screw (404), a first slider (407) is fixedly connected to the outer side of the internal thread connecting plate (406), a first sliding chute (408) is slidably connected to the outer portion of the first slider (407), a pressing rod (409) is fixedly connected to the bottom end of the internal thread connecting plate (406), and a drill bit (410) is fixedly installed to the bottom end of the pressing rod (409.

3. A sampling device for deep soil testing according to claim 2, wherein the first gear (402) forms a transmission structure by connecting the second gear (403) with the screw (404), and the screw (404) forms a rotation structure with the main support frame (2) by the bearing (405).

4. The sampling device for deep soil detection according to claim 1, wherein the anti-vibration mechanism (5) comprises a hand wheel (501) inside, an external threaded rod (502) is fixedly connected to the top end of the hand wheel (501), an internal threaded connector (503) is installed on the external thread of the external threaded rod (502), a fixed plate (504) is fixedly connected to the bottom end of the internal threaded connector (503), an internal movable plate (505) is fixedly installed on the bottom end of the external threaded rod (502), a second slider (506) is fixedly connected to the outer side of the internal movable plate (505), a second sliding chute (507) is slidably connected to the outer side of the second slider (506), a base (508) is fixedly connected to the outer side of the second sliding chute (507), a first movable shaft (509) is fixedly installed on the bottom end of the internal movable plate (505), and a movable rod (510) is connected to the outer side of the first movable shaft, the utility model discloses a slide ring, including activity pole (510), movable rod (511) externally mounted has second loose axle (511), and second loose axle (511) bottom fixedly connected with sliding ring (512), sliding ring (512) inboard sliding connection has slide bar (513), and the outside cover of slide bar (513) is equipped with spring (514).

5. The sampling device for deep soil detection according to claim 4, wherein the inner movable plate (505) forms a movable structure with the sliding ring (512) through the first movable shaft (509), the movable rod (510), the second movable shaft (511), and the sliding ring (512) forms an elastic structure with the base (508) through the sliding rod (513), the spring (514).

6. The sampling device for deep soil detection according to claim 1, wherein the pushing mechanism (6) includes a U-shaped push rod (601) inside, a third movable shaft (602) is fixedly connected to an outer side of the U-shaped push rod (601), a fourth movable shaft (603) is fixedly mounted at a bottom end of the U-shaped push rod (601), a support rod (604) is externally connected to the fourth movable shaft (603), a fifth movable shaft (605) is mounted on an outer side of the support rod (604), a third sliding block (606) is externally connected to the fifth movable shaft (605), a third sliding groove (607) is slidably connected to an outer side of the third sliding block (606), a through groove (608) is formed in an outer wall of the third sliding groove (607), an external threaded column (609) is movably connected to an inner side of the through groove (608), and a hand nut (610) is threadedly connected to an outer side of the external threaded column (609).

7. The sampling device for deep soil detection according to claim 6, wherein the U-shaped push rod (601) forms a movable structure through the fourth movable shaft (603), the support rod (604), the fifth movable shaft (605) and the third slide block (606), and the third slide block (606) forms a locking structure through the third sliding groove (607), the through groove (608), the externally threaded column (609), the hand nut (610) and the main support frame (2).

8. The sampling device for deep soil detection according to claim 1, wherein the sampling mechanism (7) comprises an annular plate (701) therein, an inner groove (702) is formed in the annular plate (701), the outer wall of the annular plate (701) is fixedly connected with a connecting ring (703), an inner threaded hole (704) is formed in the connecting ring (703), and a screw (705) is screwed in the inner side of the inner threaded hole (704).

9. The sampling device for deep soil detection as claimed in claim 8, wherein the annular plate (701) is detachably connected with the pressure rod (409) through a connecting ring (703), an internally threaded hole (704), a screw (705), and the annular plate (701) is integrally connected with the inner groove (702) through a slot.

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