CN221377147U - Geological mineral exploration sampling device - Google Patents

Abstract

The utility model relates to the technical field of exploration sampling, in particular to a geological mineral exploration sampling device, which comprises a base, wherein a through hole is formed in the middle of the base, a base frame is vertically arranged on one side of the base, rollers are rotatably arranged on two sides of the bottom of the base frame, an auxiliary moving mechanism is arranged on one side, away from the base, of the base frame, and a sampling mechanism is arranged above the base. The auxiliary moving mechanism comprises an annular belt, a driving wheel and a driven wheel, the driving wheel and the driven wheel are rotatably arranged on the base frame, the annular belt is tensioned and transmitted through the driving wheel and the driven wheel, external teeth are arranged on the outer side of the annular belt, and the annular belt is segmented by the external teeth. The auxiliary moving mechanism is arranged, external teeth are arranged on the annular belt of the auxiliary moving mechanism, and when climbing mountain lands is needed, each external tooth can drive the geological mineral exploration sampling device to climb along with the rotation of the annular belt, so that workers can conveniently move the geological mineral exploration sampling device during climbing.

Description

Geological mineral exploration sampling device

Technical Field

The utility model relates to the technical field of exploration sampling, in particular to a geological mineral exploration sampling device.

Background

Geological mineral sampling refers to the specific work of collecting a small part of representative samples from mineral bodies or near-mineral surrounding rocks and piles for various analysis, test, identification and experiments to research and determine mineral quality, physicochemical properties and exploitation processing technical conditions, in geological mineral exploration work, in order to research the change of geological environment, sampling is needed along the direction of the same stratum spreading, each sampling point is sampled at the same interval along the stratum spreading direction, and the content of mineral in geology is determined by comparing geological rock and soil of bottom layers with different depths.

Survey personnel often need to go to traffic such as remote areas, mountain and the like and the environment of topography complicacy to carry out geological mineral survey sample work, often need to carry the survey sampling device and walk a long distance. Therefore, in order to facilitate the staff to move the survey sampling device when the topography is complex and the staff can only walk in the prior art, a movable structure is arranged on the basis of the original survey sampling device, for example, in the geological mineral survey sampling device disclosed in the patent with the prior art publication number of CN219657203U, CN116839976A, CN217359090U and the like, the movable structure is a flat trolley driven to move by four movable wheels, and the movable structure is suitable for flat zones and inconvenient to move when encountering mountainous areas with complex topography or needing to ascend.

Disclosure of utility model

The utility model aims to solve the problem that the existing geological mineral exploration sampling device with the movable trolley is inconvenient to move in mountainous areas with complex terrains or needing to ascend, and provides the geological mineral exploration sampling device capable of solving the problem.

The geological mineral exploration sampling device comprises a base, wherein a through hole is formed in the middle of the base, a base frame is vertically arranged on one side of the base, rollers are rotatably arranged on two sides of the bottom of the base frame, an auxiliary moving mechanism is arranged on one side, away from the base, of the base frame, and a sampling mechanism is arranged above the base;

The auxiliary moving mechanism comprises an annular belt, a driving wheel and a driven wheel, the driving wheel and the driven wheel are rotatably arranged on the base frame, the annular belt is tensioned and transmitted through the driving wheel and the driven wheel, external teeth are arranged on the outer side of the annular belt, and the annular belt is segmented by the external teeth.

Further, the sampling mechanism comprises a platform, a first hydraulic cylinder and a drilling barrel, wherein the platform is arranged above the base and connected with the base frame, the first hydraulic cylinder is fixed on the lower surface of the platform, the drilling barrel is arranged below the platform, is connected with the first hydraulic cylinder and drives the lifting platform to move up and down through the first hydraulic cylinder, is arranged below the lifting platform, and is driven to rotate by a first motor.

Further, the first motor is installed on the upper surface of the lifting platform, and an output shaft penetrates through the lifting platform to be connected with the drilling barrel.

Furthermore, a plurality of windows are axially and equidistantly arranged on one side of the drill cylinder, and an openable sealing plate is arranged at the window.

Further, a lifting mechanism is arranged on the base frame, and the auxiliary moving mechanism is arranged on the lifting mechanism.

Further, the lifting mechanism comprises a sliding frame and a driving mechanism, a plurality of guide holes are formed in the base frame, guide rods are arranged on the sliding frame corresponding to the guide holes, the guide rods are inserted in the guide holes, the driving mechanism drives the sliding frame to move up and down relative to the base frame, and the driving wheel and the driven wheel are rotatably arranged on the sliding frame.

Further, the driving mechanism comprises a mounting plate and a second hydraulic cylinder, the sliding frames are arranged on two sides of the driving wheel and the driven wheel, a connecting rod is fixed between the two sliding frames on the inner side, the mounting plate is fixed on one side, far away from the base, of the base frame, and two ends of the second hydraulic cylinder are respectively connected with the mounting plate and the connecting rod.

Furthermore, fixing holes are formed in four corners of the base, and fixing cones are detachably inserted in the fixing holes.

Further, a storage box for storing the fixed cone is fixed on one side of the base frame, which is close to the base.

Compared with the prior art, the utility model has the beneficial effects that:

The geological mineral exploration sampling device is provided with the auxiliary moving mechanism, the annular belt of the auxiliary moving mechanism is provided with the external teeth, and when climbing mountain areas is needed, each external tooth can rotate along with the annular belt to drive the geological mineral exploration sampling device to climb, so that workers can conveniently move the geological mineral exploration sampling device during climbing.

The geological mineral exploration sampling device is also provided with the lifting mechanism for driving the auxiliary moving mechanism, when the geological mineral exploration sampling device moves in a flat zone and does not need to use the auxiliary moving mechanism, the auxiliary moving mechanism is driven to rise by the lifting mechanism, and the exploration sampling device can be pulled to move by virtue of the roller by tilting the base frame; when climbing is needed, the auxiliary moving mechanism is driven to descend to approximately the same height as the roller through the lifting mechanism, and the auxiliary moving mechanism can be used for climbing.

According to the geological mineral exploration sampling device, a plurality of windows are formed in one side of the drill cylinder at equal intervals along the axial direction, and the openable sealing plates are arranged, so that the sealing plates are opened for observation after sampling, and samples at corresponding positions of the drill cylinder are taken out.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of a geological mineral exploration sampling device in an embodiment of the utility model.

FIG. 2 is a schematic diagram of the overall structure of another view of a geological mineral survey sampling device in accordance with an embodiment of the present utility model.

FIG. 3 is a schematic view of a part of a geological mineral exploration sampling device in an embodiment of the utility model.

In the figure: 1. a through hole; 2. a base; 3. a base frame; 4. a roller; 5. an endless belt; 6. a driving wheel; 7. driven wheel; 8. external teeth; 9. a platform; 10. a first hydraulic cylinder; 11. a lifting table; 12. a first motor; 13. drilling a cylinder; 14. a sealing plate; 15. a sliding frame; 16. a guide hole; 17. a guide rod; 18. a mounting plate; 19. a second hydraulic cylinder; 20. a connecting rod; 21. a fixed cone; 22. a storage box; 23. and a second motor.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1, the geological mineral exploration sampling device in this embodiment comprises a base 2, a through hole 1 is arranged in the middle of the base 2, a base frame 3 is vertically arranged on one side of the base 2, rollers 4 are rotatably arranged on two sides of the bottom of the base frame 3, an auxiliary moving mechanism is arranged on one side, away from the base 2, of the base frame 3, and a sampling mechanism is arranged above the base 2.

As shown in fig. 3, the auxiliary moving mechanism comprises an annular belt 5, a driving wheel 6 and a driven wheel 7, wherein the driving wheel 6 and the driven wheel 7 are rotatably arranged on the base frame 3, the annular belt 5 is tensioned and driven by the driving wheel 6 and the driven wheel 7, external teeth 8 are arranged on the outer side of the annular belt 5, and the annular belt 5 is segmented by the external teeth 8. Specifically, the annular belt 5 is a synchronous belt, and the specific number of the external teeth 8 and the intervals between the external teeth 8 are set according to practical situations.

Through setting up supplementary moving mechanism, be provided with external tooth 8 on supplementary moving mechanism's the annular area 5, when needs climbing mountain region, every external tooth 8 rotates along with the annular area 5 and can drive geological mineral investigation sampling device and climb to be convenient for the staff and move geological mineral investigation sampling device when ascending a height.

In the present embodiment, the base frame 3 is provided with a lifting mechanism on which the auxiliary moving mechanism is mounted. The lifting mechanism comprises a sliding frame 15 and a driving mechanism, a plurality of guide holes 16 are formed in the base frame 3, guide rods 17 are arranged on the sliding frame 15 corresponding to the guide holes 16, the guide rods 17 are inserted into the guide holes 16, the driving mechanism drives the sliding frame 15 to move up and down relative to the base frame 3, and the driving wheel 6 and the driven wheel 7 are rotatably arranged on the sliding frame 15.

In the present embodiment, the sliding frames 15 are disposed on both sides of the driving wheel 6 and the driven wheel 7, and a connecting rod 20 is fixed between the two sliding frames 15 on the inner side. The driving mechanism comprises a mounting plate 18 and a second hydraulic cylinder 19, wherein the mounting plate 18 is fixed on one side of the base frame 3 far away from the base 2, the second hydraulic cylinder 19 is vertically arranged, and two ends of the second hydraulic cylinder 19 are respectively connected with the mounting plate 18 and the connecting rod 20. Thereby driving the sliding frame 15 to lift by the second hydraulic cylinder 19 to realize the lifting of the auxiliary moving mechanism. The two sliding frames 15 on the inner side are provided with a second motor 23 on the side far away from the driving wheel 6, and the second motor 23 is in transmission connection with the driving wheel 6 so as to drive the driving wheel 6 to rotate.

By arranging the lifting mechanism for driving the auxiliary moving mechanism, when the auxiliary moving mechanism is not needed to be used in a flat zone, the auxiliary moving mechanism is driven to rise by the lifting mechanism, and the base frame 3 is inclined to pull the investigation sampling device to move by virtue of the roller 4; when climbing is needed, the auxiliary moving mechanism is driven to descend to approximately the same height as the roller 4 through the lifting mechanism, and the auxiliary moving mechanism can be used for climbing.

In this embodiment, as shown in fig. 2, the sampling mechanism includes a platform 9 disposed above the base 2 and connected to the base frame 3, a first hydraulic cylinder 10 fixed on the lower surface of the platform 9, a lifting table 11 disposed below the platform 9 and connected to the first hydraulic cylinder 10 and driven to move up and down by the first hydraulic cylinder 10, and a drill barrel 13 disposed below the lifting table 11 and driven to rotate by a first motor 12. Specifically, platform 9 and bed frame 3 fixed connection, the vertical setting of first pneumatic cylinder 10, platform 9 below symmetry are provided with two first pneumatic cylinders 10, and two first pneumatic cylinders 10 symmetry are connected with elevating platform 11, and elevating platform 11 can be circular, square, oval isotructure. Specifically, in this embodiment, the lifting platform 11 is elliptical, the first motor 12 is installed at the center of the upper surface of the lifting platform 11, and the output shaft penetrates through the lifting platform 11 to be connected with the drill barrel 13, and when the drill barrel 13 drills downwards to sample, the output shaft can pass through the through hole 1 on the base 2.

In this embodiment, a plurality of windows are axially and equidistantly arranged on one side of the drill cylinder 13, and an openable sealing plate 14 is arranged at the window, specifically, one side of the sealing plate 14 is hinged with the drill cylinder 13, and locking structures such as a lock catch and a pin can be arranged on the other side of the sealing plate. A plurality of windows are formed in one side of the drill cylinder 13 at equal intervals along the axial direction, and the openable sealing plate 14 is arranged, so that the sealing plate 14 is opened after sampling to observe and take out samples at corresponding positions of the drill cylinder 13.

In this embodiment, fixing holes are formed at four corners of the base 2, and fixing cones 21 are detachably inserted into the fixing holes. A storage box 22 for storing the fixing cone 21 is fixed on one side of the base frame 3 close to the base 2.

A detachable mobile power supply is arranged above the platform 9, and a storage box for storing the mobile power supply is arranged on the base 2. When the investigation sampling device is moved, the mobile power supply is placed in the storage box, so that the mobile power supply is convenient to transport.

The working principle of the geological mineral exploration sampling device in the embodiment is as follows:

When the geological mineral exploration sampling device is used for exploration sampling, the base frame 3 is erected, the fixed cones 21 are inserted into the fixed holes at four corners of the base 2 and are inserted into the ground, the first hydraulic cylinder 10 and the first motor 12 are started, and the drilling barrel 13 rotates and drills downwards to conduct exploration sampling.

When the geological mineral exploration sampling device is moved to conduct exploration sampling, when the geological mineral exploration sampling device moves in a flat zone, and an auxiliary moving mechanism is not needed, the auxiliary moving mechanism is driven to ascend through the lifting mechanism, and the exploration sampling device can be pulled to move by means of the idler wheels 4 when the base frame 3 is inclined; when climbing is needed, the auxiliary moving mechanism is driven to descend to approximately the same height as the roller 4 through the lifting mechanism, and the auxiliary moving mechanism can be used for climbing.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (9)

1. A geological mineral exploration sampling device, comprising:

a base (2) with a through hole (1) in the middle;

A base frame (3) arranged at one side of the base (2);

The rollers (4) are rotatably arranged at two sides of the bottom of the base frame (3);

An auxiliary moving mechanism arranged on one side of the base frame (3) far away from the base (2); and

The sampling mechanism is arranged above the base (2);

The auxiliary moving mechanism comprises an annular belt (5), a driving wheel (6) and a driven wheel (7), wherein the driving wheel (6) and the driven wheel (7) are rotatably arranged on the base frame (3), the annular belt (5) is tensioned and driven by the driving wheel (6) and the driven wheel (7), external teeth (8) are arranged on the outer side of the annular belt (5), and the annular belt (5) is segmented by the external teeth (8).

2. The geological mineral survey sampling device of claim 1, wherein the sampling mechanism comprises:

A platform (9) arranged above the base (2) and connected with the base frame (3);

A first hydraulic cylinder (10) fixed on the lower surface of the platform (9);

The lifting platform (11) is arranged below the platform (9), connected with the first hydraulic cylinder (10) and driven to move up and down by the first hydraulic cylinder (10);

And the drill cylinder (13) is arranged below the lifting table (11) and is driven to rotate by the first motor (12).

3. The geological mineral exploration sampling device according to claim 2, characterized in that said first motor (12) is mounted on the upper surface of said lifting table (11), and an output shaft penetrates said lifting table (11) and is connected with said drilling drum (13).

4. A geological mineral exploration sampling device according to claim 3, characterized in that a plurality of windows are provided on one side of the drill cylinder (13) at equal intervals in the axial direction, and a sealing plate (14) which can be opened and closed is provided at the window.

5. Geological mineral exploration sampling device according to claim 1, characterized in that said base frame (3) is provided with a lifting mechanism on which said auxiliary moving mechanism is mounted.

6. The geological mineral exploration sampling device according to claim 5, characterized in that the lifting mechanism comprises a sliding frame (15) and a driving mechanism, a plurality of guide holes (16) are formed in the base frame (3), guide rods (17) are arranged on the sliding frame (15) corresponding to the guide holes (16), the guide rods (17) are inserted into the guide holes (16), the driving mechanism drives the sliding frame (15) to move up and down relative to the base frame (3), and the driving wheel (6) and the driven wheel (7) are rotatably mounted on the sliding frame (15).

7. The geological mineral exploration sampling device according to claim 6, wherein the driving mechanism comprises a mounting plate (18) and a second hydraulic cylinder (19), the sliding frames (15) are arranged on two sides of the driving wheel (6) and the driven wheel (7), a connecting rod (20) is fixed between the two sliding frames (15) on the inner side, the mounting plate (18) is fixed on one side, far away from the base (2), of the base frame (3), and two ends of the second hydraulic cylinder (19) are respectively connected with the mounting plate (18) and the connecting rod (20).

8. The geological mineral exploration sampling device according to claim 4, wherein fixing holes are formed in four corners of the base (2), and fixing cones (21) are detachably inserted into the fixing holes.

9. Geological mineral exploration sampling device according to claim 8, characterized in that the base frame (3) is fixed with a receiving box (22) for receiving a fixing cone (21) on the side close to the base (2).