CN117367863B - Rotary cutting sampling device and method for geological mineral resource investigation - Google Patents

Abstract

The invention discloses a rotary-cut sampling device and a rotary-cut sampling method for geological mineral resource exploration, comprising a threaded sampling rod and a stable contact frame sleeved outside the threaded sampling rod, wherein a flexible bonding plate is attached to one surface of the stable contact frame facing the exploration, one end of the threaded sampling rod is connected with a drilling motor, a threaded groove is formed in the outer wall of the threaded sampling rod, a pulling pulley, a steering pulley and a stress pulley are connected to a linkage pull rope, the pulling pulley is movably connected to a sliding sleeve rod, the steering pulley is movably connected to two linkage frames, and the stress pulley is in threaded connection with the stable contact frame; the movable tension adjusting pulley can press the rope, so that the tension of the rope is changed, and the connecting effect is improved.

Description

Rotary cutting sampling device and method for geological mineral resource investigation

Technical Field

The invention relates to the field of geological mineral resource exploration, in particular to a rotary-cut sampling device and a rotary-cut sampling method for geological mineral resource exploration.

Background

The geological mineral resource exploration needs to sample soil, which is a basic technology of the geological mineral resource exploration, and the soil is sampled to a specific depth during sampling, and then the soil sample is analyzed;

the invention CN116165001A of China a geological mineral resource investigation rotary-cut sampling device and method, including driving mechanism and rotary-cut department, this scheme forces the sample to be cut off when the deviation produces through the lantern ring on the rotary-cut department, has raised sampling efficiency and precision, this scheme has only solved the deviation and can cut off, raise the precision, avoid the problem of the drilling deviation, the general mineral resource distributes in the underground range is all bigger, the probability of occurrence of this problem is not very great in the whole drilling process;

the prior art still needs to finish sampling by a mode of hole turning entering, and the whole drilling process is ubiquitous in that when drilling, dust is larger, so that the health is influenced, and the visual field is also influenced.

Therefore, we propose a rotary-cut sampling device and method for geological mineral resource exploration to solve the above problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the embodiment of the invention provides a rotary-cut sampling device and a rotary-cut sampling method for geological mineral resource exploration, which are used for solving the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a geological mineral resources investigation rotary-cut sampling device, includes screw thread sampling pole and screw thread sampling pole overcoat stable contact frame of establishing, stable contact frame is laminated towards the one side of exploration has flexible laminating board, the one end of screw thread sampling pole is connected with the probing motor, screw thread groove has been seted up to screw thread sampling pole outer wall, be hollow structure in the screw thread sampling pole;

further comprises:

the adjusting stabilizer is used for adjusting the direction of the threaded sampling rod, the adjusting stabilizer is positioned on the stable contact frame, an adjusting movable block is movably connected in the adjusting stabilizer, a sliding sleeve rod is movably connected in the adjusting movable block, an angle locking disc is fixedly arranged on the adjusting movable block, the angle locking disc is of a circular arc structure, a plurality of locking holes are formed in the angle locking disc, after the adjusting movable block is adjusted, locking is completed through the locking holes in the angle locking disc and bolts on the adjusting stabilizer, one end of the extending rod is fixedly connected with the threaded sampling rod in a penetrating manner, and the other end of the extending rod is connected with the drilling motor in a key manner;

the dustproof plate is positioned on the stable contact frame and is fixedly connected with a balancing weight towards one side of exploration;

the linkage frame is used for the linkage frame of linkage adaptation dust guard is located on the screw thread sampling pole, the linkage frame sets up there are two modes on the screw thread sampling pole, one of them mode is:

the linkage frame is provided with two, and the symmetry sets up the both sides of slip loop bar, two be provided with one end on the linkage frame and connect on the dust guard, the other end is connected linkage stay cord on the slip loop bar, be connected with pulling pulley, diverting pulley and atress pulley on the linkage stay cord, pulling pulley swing joint is in on the slip loop bar, diverting pulley swing joint is two on the linkage frame, atress pulley threaded mounting on the steady contact frame.

In a preferred embodiment, a functional water spray head for spraying dust fall and improving the viscosity of sampled soil is positioned on the stable contact frame, and one end of the functional water spray head is connected with a pressurizing pump installed on the stable contact frame.

In a preferred embodiment, a sliding groove is formed in the outer wall of the sliding sleeve rod, a sliding block corresponding to the sliding groove is arranged in the sliding groove, and the sliding block is fixedly connected with the adjusting movable block.

In a preferred embodiment, another mode is, the linkage frame is provided with one, be provided with the linkage main rope on the linkage frame, the one end of linkage main rope is connected with first branch rope and second branch rope, and the other end is connected on the slip loop bar, be connected with pulling pulley and diverting pulley on the linkage main rope, pulling pulley swing joint is in on the slip loop bar, diverting pulley movable mounting is in on the linkage frame, the one end of first branch rope and second branch rope is connected on the dust guard, be provided with first component pulley and second component pulley on first branch rope and the second branch rope respectively, first component pulley and second component pulley all movable mounting are in on the steady contact frame.

In a preferred embodiment, the stable contact frame is further provided with a tension adjusting pulley, the tension adjusting pulley is fixedly connected with a limiting slide block, the stable contact frame is provided with a limiting slide groove matched with the limiting slide block, and an adjusting screw rod penetrates through the limiting slide block.

In a preferred embodiment, one end of the threaded sampling rod facing the sliding sleeve rod is connected with a water bearing disc, four corresponding water leakage holes are formed in the water bearing disc, and corresponding water tanks corresponding to the four corresponding water leakage holes are formed in the inner wall of the threaded sampling rod.

In a preferred embodiment, the stable contact frame is movably provided with an auxiliary material taking telescopic rod, the output end of the auxiliary material taking telescopic rod is movably connected with a stress block, and the stress block is fixedly connected with the middle section of the dust-proof plate

The application method of the rotary-cut sampling device for geological mineral resource exploration comprises the following steps:

step one: firstly, placing a stable contact frame on the ground to be explored, then adjusting the angle of a threaded sampling rod according to the requirement, rotating an adjusting movable block, and locking through a locking space on an angle locking disc and a bolt after rotation is completed:

step two: after the adjustment is finished, starting a drilling motor, driving a threaded sampling rod to rotate by the drilling motor, pushing the threaded sampling rod to drill inwards by a sliding sleeve rod fixedly connected to the drilling motor, and driving a rope to pull a dust-proof plate to open and prevent dust by the sliding sleeve rod which moves while drilling;

step three: during material taking, the drilling motor is reversely rotated, acting force is applied to the drilling motor, the threaded sampling rod is taken out, the auxiliary material taking telescopic rod is started while the material taking telescopic rod is pulled, and the sliding sleeve rod is pulled out under the action of the rope.

The invention has the technical effects and advantages that:

1. according to the invention, the outer wall of the threaded sampling rod can be sprayed with water through the arranged functional water spraying head, so that the water drips to the drilling position along the outer wall of the threaded sampling rod, wets the special detection position, facilitates the entry of the threaded sampling rod, and can enter the inner wall of the threaded sampling rod through the combination with the water bearing disc, and the inside and outside of the threaded sampling rod generate a wetting effect;

2. according to the invention, through the linkage frame and the structure on the linkage frame, the dust-proof plate can be driven to rotate when drilling is deep, so that the synchronous dust-proof effect is achieved; the movable tension adjusting pulley can press the rope, so that the tension of the rope is changed, and the connecting effect is improved;

3. according to the invention, the inside of the threaded sampling rod can be irrigated through the corresponding water leakage holes and the corresponding water tanks, and when quite dry sample materials are transferred, the inner wall of the threaded sampling rod and the sample materials in the threaded sampling rod can be wetted, so that the sample materials are tightly attached to the inner wall of the threaded sampling rod, and the sample materials are prevented from falling; the auxiliary material taking telescopic rod can press the dust guard when the sample is extracted, so that the dust guard drives the rope to pull the sliding sleeve rod upwards, and the sliding sleeve rod is convenient to extract.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic view showing the inner and outer structures of a sliding sleeve according to a first embodiment of the present invention;

FIG. 3 is a schematic view showing the connection structure of the functional sprinkler head and the stabilizing contact frame according to the second embodiment of the present invention;

FIG. 4 is a schematic view showing a connection structure of a tension adjusting pulley and a stabilizing contact frame according to a third embodiment of the present invention;

FIG. 5 is a schematic view showing a connection structure between a water tray and a threaded sampling rod according to a fourth embodiment of the present invention;

FIG. 6 is a schematic view illustrating the internal three-dimensional structure of a water tray and a threaded sampling rod according to a fourth embodiment of the present invention;

FIG. 7 is a schematic view of another linkage frame structure according to a fifth embodiment of the present invention;

fig. 8 is a schematic diagram of a connection structure between an auxiliary material taking telescopic rod and a stable contact frame according to a sixth embodiment of the present invention.

The reference numerals are: 1. a threaded sampling rod; 2. stabilizing the contact frame; 201. a flexible adhesive sheet; 3. adjusting the stabilizing frame; 301. adjusting the movable block; 302. a sliding sleeve rod; 303. an angle locking disc; 304. locking is empty; 4. a dust-proof plate; 401. balancing weight; 5. a linkage frame; 501. pulling the pulley; 502. a diverting pulley; 503. a force-bearing pulley; 504. a linkage pull rope; 505. a linkage main rope; 506. a first rope separation; 507. a second split rope; 508. a first component force pulley; 509. a second split pulley; 6. a functional sprinkler head; 601. a pressurizing pump; 7. a tension adjusting pulley; 701. a limit sliding block; 702. adjusting a screw rod; 8. a water-bearing plate; 801. corresponding to the water leakage hole; 802. corresponding to the water tank; 9. an auxiliary material taking telescopic rod; 901. a stress block; 10. and (3) a drilling motor.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-2 of the specification, the invention relates to a rotary-cut sampling device for geological mineral resource exploration, which comprises a threaded sampling rod 1 and a stable contact frame 2 sleeved outside the threaded sampling rod 1, wherein one surface of the stable contact frame 2 facing the exploration is attached with a flexible attaching plate 201, one end of the threaded sampling rod 1 is connected with a drilling motor 10, the outer wall of the threaded sampling rod 1 is provided with a threaded groove, and the threaded sampling rod 1 is internally of a hollow structure; further comprises: the adjusting stabilizer 3 is used for adjusting the adjusting stabilizer 3 in the direction of the threaded sampling rod 1 to be positioned on the stable contact frame 2, an adjusting movable block 301 is movably connected in the adjusting stabilizer 3, a sliding sleeve rod 302 is movably connected in the adjusting movable block 301, an angle locking disc 303 is fixedly arranged on the adjusting movable block 301, the angle locking disc 303 is in a circular arc structure, a plurality of locking spaces 304 are formed in the angle locking disc 303, after the adjusting movable block 301 is adjusted, locking is completed through the locking spaces 304 in the angle locking disc 303 and bolts in the adjusting stabilizer 3, one end of the sliding sleeve rod 302 is fixedly connected with the threaded sampling rod 1, and the other end of the sliding sleeve rod 302 is connected with an extension rod in a key manner with the drilling motor 10;

specifically, when using, because screw thread sampling pole 1 is longer, in the entering in-process, screw thread sampling pole 1 takes place the skew very easily, leads to not carrying out the straight line drilling according to the angle of thinking, so through the regulation stabilizing frame 3 that sets up, set up a stable structure between the turning head and the power end of screw thread sampling pole 1, avoid screw thread sampling pole 1 to take place the skew, still accessible regulation adjusting structure on the regulating stabilizing frame 3 adjusts when using.

Example two

Referring to fig. 3 of the specification, the embodiment is further based on the second embodiment, and the rotary-cut sampling device for geological mineral resource exploration comprises a dust-proof plate 4, wherein the dust-proof plate 4 for dust prevention is positioned on a stable contact frame 2, and a balancing weight 401 is fixedly connected to one surface of the dust-proof plate 4 facing exploration; the linkage frame 5 is used for the linkage frame 5 of linkage adaptation dust guard 4 to be located on the screw thread sampling pole 1, and the linkage frame 5 sets up on the screw thread sampling pole 1 has two modes, and one of them mode is: the two linkage frames 5 are symmetrically arranged on two sides of the sliding sleeve rod 302, one end of each of the two linkage frames 5 is connected to the dust-proof plate 4, the other end of each of the two linkage frames is connected to a linkage pull rope 504 on the sliding sleeve rod 302, the linkage pull rope 504 is connected with a pulling pulley 501, a steering pulley 502 and a stress pulley 503, the pulling pulley 501 is movably connected to the sliding sleeve rod 302, the steering pulley 502 is movably connected to the two linkage frames 5, and the stress pulley 503 is in threaded installation on the stable contact frame 2; a sliding groove is formed in the outer wall of the sliding sleeve rod 302, a sliding block corresponding to the sliding groove is arranged in the sliding groove, and the sliding block is fixedly connected with the adjusting movable block 301; the multifunctional water spraying head 6 is used for spraying water and reducing dust and improving the viscosity of sampled soil, the multifunctional water spraying head 6 is positioned on the stable contact frame 2, and one end of the multifunctional water spraying head 6 is connected with a pressurizing pump 601 arranged on the stable contact frame 2; the outer wall of the screw thread sampling rod 1 can be sprayed with water through the arranged functional water spraying head 6, so that the water drips to the drilling position along the outer wall of the screw thread sampling rod 1, wets the special detection position, facilitates the entry of the screw thread sampling rod 1, and can enter the inner wall of the screw thread sampling rod 1 through the combination with the water bearing disc 8, and the inside and the outside of the screw thread sampling rod 1 generate wetting effects;

specifically, when showing practical as far as possible, generally more circumstances of raise dust appear when screw thread sampling pole 1 is gone into to and when coming out, so when screw thread sampling pole 1 just deepens, can synchronous pulling dust guard 4, let dust guard 4 open, and follow screw thread sampling pole 1 continues to go deep, dust guard 4 open angle is also about big, when screw thread sampling pole 1 takes out, dust guard 4 reduces gradually from the biggest angle that opens, when screw thread sampling pole 1 takes out, dust guard 4 angle is minimum, the range is covered to the change hole position is biggest, the dustproof effect is best.

Example III

Referring to fig. 4 of the specification, the embodiment is further based on the second embodiment, and the rotary-cut sampling device for geological mineral resource exploration provided by the invention comprises a tension adjusting pulley 7 arranged on a stable contact frame 2, wherein a limit sliding block 701 is fixedly connected to the tension adjusting pulley 7, a limit sliding groove matched with the limit sliding block 701 is formed on the stable contact frame 2, and an adjusting screw rod 702 penetrates through the limit sliding block 701; the movable tension adjusting pulley 7 can press the rope, so that the tension of the rope is changed, and the connecting effect is improved;

specifically, when the rope is used for a long time or the rope is set improperly, for example, the rope is not required to be set again at the moment, the tension of the rope is adjusted by adjusting the distance between the tension adjusting pulleys 7, and the stress transmission effect of the linkage structure is improved.

Example IV

Referring to fig. 5 and 6 of the specification, the embodiment is further based on the third embodiment, and the rotary-cut sampling device for geological mineral resource exploration comprises a water bearing disc 8 connected with one end of a threaded sampling rod 1 facing a sliding sleeve rod 302, four corresponding water leakage holes 801 are formed in the water bearing disc 8, and corresponding water tanks 802 corresponding to the four corresponding water leakage holes 801 are formed in the inner wall of the threaded sampling rod 1; through the corresponding hole 801 that leaks that sets up and corresponding basin 802 can be to the inside watering of screw thread sampling pole 1, when changeing very dry sample material, can moisten the sample material in the inner wall of screw thread sampling pole 1 and the screw thread sampling pole 1 to let the sample material hug closely on the inner wall of screw thread sampling pole 1, prevent that the sample material from dropping.

Specifically, through the water tray 8 that sets up, when water tray 8 removes functional sprinkler bead 6 below, can accept the water on the functional sprinkler bead 6, let water enter into in the screw thread sampling pole 1 like this, improve the bonding effect of sample and screw thread sampling pole 1 inner wall, avoid dropping, the hydroenergy of drip is moist to the drilling position simultaneously, further avoids the raise dust.

Example five

Referring to fig. 7 of the specification, the embodiment of the invention is further based on the fourth embodiment, and the rotary-cut sampling device for geological mineral resource exploration comprises another way that a linkage frame 5 is provided with one, a linkage main rope 505 is arranged on the linkage frame 5, one end of the linkage main rope 505 is connected with a first component rope 506 and a second component rope 507, the other end of the linkage main rope 505 is connected with a sliding sleeve rod 302, the linkage main rope 505 is connected with a pulling pulley 501 and a turning pulley 502, the pulling pulley 501 is movably connected with the sliding sleeve rod 302, the turning pulley 502 is movably arranged on the linkage frame 5, one ends of the first component rope 506 and the second component rope 507 are connected with a dust-proof plate 4, the first component rope 506 and the second component rope 507 are respectively provided with a first component pulley 508 and a second component pulley 509, and the first component pulley 508 and the second component pulley 509 are movably arranged on a stable contact frame 2; through the linkage frame 5 and the structure on the linkage frame, the dustproof plate 4 can be driven to rotate when drilling deeply, thereby achieving the effect of synchronous dust prevention

Specifically, under the condition that the use of the equipment is not affected, one linkage frame 5 is reduced, the visual field is not improved, acting force is more conveniently applied to the equipment, the operation of a person is facilitated, and the synchronous movement of the two dust boards 4 can be completed through one main rope.

Example six

Referring to fig. 8 of the specification, the embodiment is further based on the fifth embodiment, and the rotary-cut sampling device for geological mineral resource exploration comprises an auxiliary material taking telescopic rod 9 movably mounted on a stable contact frame 2, wherein the output end of the auxiliary material taking telescopic rod 9 is movably connected with a stress block 901, the stress block 901 is fixedly connected with the middle section of a dust guard 4, and the dust guard 4 can be pressed by the arranged auxiliary material taking telescopic rod 9 when samples are extracted, so that the dust guard 4 drives a rope to pull a sliding sleeve rod 302 upwards, and the sliding sleeve rod 302 is conveniently extracted;

specifically, when screw thread sampling pole 1 is taken out, probably meet the condition of blocking, so just need to stimulate screw thread sampling pole 1, through starting supplementary extracting telescopic link 9, let supplementary extracting telescopic link 9 pass through the linkage structure, upwards stimulate screw thread sampling pole 1 to improve the efficiency of extraction, when not taking out the card and being blocked the problem, let dust guard 4 reduce expansion angle through balancing weight 401 that sets up, and return.

The application method of the rotary-cut sampling device for geological mineral resource exploration comprises the following steps:

step one: firstly, the stable contact frame 2 is placed on the ground to be explored, then the angle of the threaded sampling rod 1 is adjusted according to the requirement, the adjusting movable block 301 is rotated, and after the rotation is completed, the locking is performed through the locking space 304 on the angle locking disc 303 and the bolt:

step two: after the adjustment is finished, the drilling motor 10 is started, the drilling motor 10 drives the threaded sampling rod 1 to rotate, and the threaded sampling rod 1 is pushed to drill inwards through the sliding sleeve rod 302 fixedly connected to the drilling motor 10, so that the sliding sleeve rod 302 moving during drilling drives the rope to pull the dust-proof plate 4 to open for dust prevention;

step three: during material taking, the drilling motor 10 is reversely rotated, acting force is applied to the drilling motor 10, the threaded sampling rod 1 is taken out, the auxiliary material taking telescopic rod 9 is started while the material taking telescopic rod 9 is pulled out, the rope is pulled through the auxiliary material taking telescopic rod 9, and the sliding sleeve rod 302 is pulled out under the action of the rope.

The working principle of the invention is as follows: during sampling, the stable contact frame 2 is placed at a sampling position, then the drilling motor 10 is started, the drilling motor 10 drives the threaded sampling rod 1 to rotate, the rotating threaded sampling rod 1 steadily enters into an exploration position and goes deep into the exploration position, the soil is in rotary cut through the threaded groove on the outer wall of the threaded sampling rod 1, the soil enters into the hollow threaded sampling rod 1, the threaded sampling rod 1 finishes sampling, and during taking out, the drilling motor 10 is rotated reversely to enable the threaded sampling rod 1 to move out.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing is only illustrative of the present invention and is not to be construed as limiting thereof, but rather, any modifications, equivalent arrangements, improvements, etc., which fall within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The utility model provides a geological mineral resources investigation rotary-cut sampling device, includes screw thread sampling pole (1) and screw thread sampling pole (1) overcoat stable contact frame (2) of establishing, stable contact frame (2) are laminated towards the one side of exploration has flexible adhesion board (201), the one end of screw thread sampling pole (1) is connected with drilling motor (10), screw thread groove has been seted up to screw thread sampling pole (1) outer wall, be hollow structure in screw thread sampling pole (1);

characterized by further comprising:

the adjusting stabilizer (3) is used for adjusting the direction of the threaded sampling rod (1), the adjusting stabilizer (3) is positioned on the stabilizing contact frame (2), an adjusting movable block (301) is movably connected in the adjusting stabilizer (3), a sliding sleeve rod (302) is movably connected in the adjusting movable block (301), an angle locking disc (303) is fixedly arranged on the adjusting movable block (301), the angle locking disc (303) is of a circular arc structure, a plurality of locking holes (304) are formed in the angle locking disc (303), after the adjusting movable block (301) is adjusted, locking is completed through the locking holes (304) on the angle locking disc (303) and bolts on the adjusting stabilizer (3), one end of the extending rod fixedly connected with the threaded sampling rod (1) is penetrated in the sliding sleeve rod (302), and the other end of the extending rod is connected with the drilling motor (10) in a key manner;

the dustproof plate (4) is used for preventing dust, the dustproof plate (4) is positioned on the stable contact frame (2), and one face of the dustproof plate (4) facing the exploration is fixedly connected with a balancing weight (401);

the linkage frame (5) is used for linkage adaptation dust guard (4) linkage frame (5) are located on the screw thread sampling pole (1), linkage frame (5) set up on screw thread sampling pole (1) have two modes, and one of them mode is:

the two linkage frames (5) are symmetrically arranged on two sides of the sliding sleeve rod (302), one ends of the two linkage frames (5) are connected to the dust-proof plate (4), the other ends of the two linkage frames are connected to a linkage pull rope (504) on the sliding sleeve rod (302), the linkage pull rope (504) is connected with a pulling pulley (501), a steering pulley (502) and a stress pulley (503), the pulling pulley (501) is movably connected to the sliding sleeve rod (302), the steering pulley (502) is movably connected to the two linkage frames (5), and the stress pulley (503) is in threaded installation on the stable contact frame (2);

the functional water spraying head (6) is used for spraying water to fall dust and improving the viscosity of sampled soil, the functional water spraying head (6) is positioned on the stable contact frame (2), and one end of the functional water spraying head (6) is connected with a pressurizing pump (601) arranged on the stable contact frame (2);

a tension adjusting pulley (7) is further mounted on the stable contact frame (2), a limit sliding block (701) is fixedly connected to the tension adjusting pulley (7), a limit sliding groove matched with the limit sliding block (701) is formed in the stable contact frame (2), and an adjusting screw rod (702) penetrates through the limit sliding block (701);

one end of the threaded sampling rod (1) facing the sliding sleeve rod (302) is connected with a water bearing disc (8), four corresponding water leakage holes (801) are formed in the water bearing disc (8), and corresponding water tanks (802) corresponding to the four corresponding water leakage holes (801) are formed in the inner wall of the threaded sampling rod (1).

2. The geological mineral resource exploration rotary-cut sampling device according to claim 1, wherein: the outer wall of the sliding sleeve rod (302) is provided with a sliding groove, a sliding block corresponding to the sliding groove is arranged in the sliding groove, and the sliding block is fixedly connected with the adjusting movable block (301).

3. The geological mineral resource exploration rotary-cut sampling device according to claim 2, wherein: when linkage frame (5) is provided with one, be provided with linkage main rope (505) on linkage frame (5), the one end of linkage main rope (505) is connected with first branch rope (506) and second branch rope (507), and the other end is connected on slip loop bar (302), be connected with pulling pulley (501) and diverting pulley (502) on linkage main rope (505), pulling pulley (501) swing joint is in on slip loop bar (302), diverting pulley (502) movable mounting is in on linkage frame (5), the one end of first branch rope (506) and second branch rope (507) is connected on dust guard (4), be provided with first component pulley (508) and second component pulley (509) on first branch rope (506) and second branch rope (507) respectively, first component pulley (508) and second component pulley (509) all movable mounting are in on stable contact frame (2).

4. A geological mineral resource exploration rotary-cut sampling device according to claim 3, characterized in that: the auxiliary material taking telescopic rod (9) is arranged on the stable contact frame (2), and the middle section of the dust-proof plate (4) is fixedly connected with a stress block (901) corresponding to the output end of the auxiliary material taking telescopic rod (9).

5. The method for using the rotary-cut sampling device for geological mineral resource exploration, which is disclosed by claim 4, is characterized by comprising the following steps:

step one: firstly, placing a stable contact frame (2) on the ground to be explored, then adjusting the angle of a threaded sampling rod (1) according to the requirement, rotating an adjusting movable block (301), and locking by a locking space (304) on an angle locking disc (303) and a bolt after rotation is completed:

step two: after the adjustment is finished, starting a drilling motor (10), wherein the drilling motor (10) drives a threaded sampling rod (1) to rotate, and pushing the threaded sampling rod (1) to drill inwards through a sliding sleeve rod (302) fixedly connected to the drilling motor (10), so that the sliding sleeve rod (302) moving during drilling drives a rope to pull a dust-proof plate (4) to open and prevent dust;

step three: during material taking, the drilling motor (10) is reversely rotated, acting force is applied to the drilling motor (10), the threaded sampling rod (1) is taken out, the auxiliary material taking telescopic rod (9) is started while the material taking telescopic rod is pulled out, and the sliding sleeve rod (302) is pulled out under the action of the rope.