CN221445444U - Sampling device for geological mapping - Google Patents

Abstract

The utility model relates to the technical field of geological mapping, in particular to a sampling device for geological mapping, which comprises a fixed frame and a sampling rod, wherein one side of the fixed frame is connected with a servo motor for driving a screw rod to rotate through a bolt; according to the utility model, through the pump body, the water tank, the liquid storage frame, the branch pipe, the spray head, the fixed pipe, the servo motor, the screw block, the screw rod, the mounting plate, the driving motor and the sampling rod, the problem that the existing sampling device for geological mapping is inconvenient to carry out dust fall treatment on the position of geological mapping sampling when in use is solved.

Description

Sampling device for geological mapping

Technical Field

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

Background

Geological mapping is a collective term for all mapping work involved in carrying out geological survey and mineral survey and the compilation of its result map, and mainly comprises land particle measurement, geological profile measurement, chemical detection measurement, mining area control measurement, mining area topography measurement, exploration net cloth measurement, exploration engineering positioning measurement, pit test engineering measurement, well exploration engineering measurement, through measurement, strip mine measurement, earth surface movement observation, drawing of related map, printing and establishment of geological mineral information system.

Patent number 202121572564.4 discloses a sampling device for geological survey, and the device has solved current device and can not take a sample simultaneously to many degree of depth when the sample, problem that sampling efficiency is low.

But when current sampling device for geological survey uses, sampling equipment punches the sample to ground, nevertheless can produce the vibration when punching to ground, and the dust on ground can be raised, and the dust hinders the staff to the observation of sample position, leads to the fact certain influence to geological survey's sampling efficiency, therefore sets up a sampling device for geological survey.

Disclosure of utility model

The utility model mainly aims to provide a sampling device for geological mapping, which solves the problem that the existing sampling device for geological mapping is inconvenient to carry out dust fall treatment on the position of geological mapping sampling when in use by arranging a pump body, a water tank, a liquid storage frame, a branch pipe, a spray head, a fixed pipe, a servo motor, a wire block, a screw rod, a mounting plate, a driving motor and a sampling rod.

The technical scheme includes that the sampling device for geological mapping comprises a fixing frame and a sampling rod, wherein one side of the fixing frame is connected with a servo motor in a bolt manner, the servo motor drives a screw rod to rotate, a screw block is connected with the outer side of the screw rod in a threaded manner, a driving motor drives a mounting plate to move is connected with the inner side of the mounting plate in a bolt manner, a spiral sheet enabling the sampling rod to conveniently sample is welded on the outer side of the sampling rod, a cone block enabling the sampling rod to enter the ground is welded on the bottom of the sampling rod, a water tank connected with a branch pipe is fixed on the outer side of the fixing frame in a screwed manner, a pump body for conveying water in the water tank is fixed on one side of the branch pipe in a screwed manner, a fixing pipe connected with a liquid storage frame is fixed on the inner side of the pump body in a screwed manner, and a dust falling nozzle is arranged on the inner side of the liquid storage frame in a screwed manner, and a through groove is formed in the surface of the fixing frame for sampling.

Through adopting above-mentioned technical scheme, when the position of geological survey is to be sampled, servo motor on the mount drives the lead screw and rotates, then the silk piece outside the lead screw drives the mounting panel and moves, make the awl piece of sampling pole bottom contact with ground, then driving motor in the mounting panel converts the electric energy that receives into mechanical energy, driving motor drives the sampling pole and gets into inside the ground, then the soil block of geological survey gets into inside the sampling pole, thereby be convenient for carry out the sample processing to geological survey's position;

When taking a sample, impeller high-speed rotation in the pump body in the mount, water in the water tank gets into the pump body inside through the branch pipe afterwards, and the pump body is carried water through the fixed pipe in holding the liquid frame afterwards, then holds the shower nozzle in the liquid frame and spray the position of geological survey and drawing sample to be convenient for carry out dust fall with the position of geological survey and drawing sample and handle.

Specifically, the outside bolt of mount is fixed with the link that makes the threaded rod drive the extension board and removes, extension board one side welding has the cone that gets into the ground inside.

Through adopting above-mentioned technical scheme, when the mount removes the assigned position, rotate the threaded rod on the link, the threaded rod drives the cone on the extension board and removes afterwards, then the cone gets into subaerial inside to be convenient for carry out fixed processing with the mount.

Specifically, the screw outside the threaded rod is fixed with the rubber sleeve that improves frictional force.

Through adopting above-mentioned technical scheme, when rotating the threaded rod, the external rubber sleeve of threaded rod improves the frictional force on threaded rod surface, is convenient for rotate the threaded rod.

Specifically, the outside welding of mounting panel has the montant outside of welding in mount one side and carries out gliding sliding sleeve.

Through adopting above-mentioned technical scheme, when the mounting panel removed, the outer sliding sleeve of mounting panel was slided outside the montant to improve the stability that the mounting panel removed.

Specifically, the input ends of the servo motor, the driving motor and the pump body are electrically connected with the output end of an external power supply.

Through adopting above-mentioned technical scheme, through connecting external power source, make the consumer normal operating.

The utility model has the beneficial effects that:

(1) According to the sampling device for geological mapping, when the position of geological mapping is to be sampled, the servo motor on the fixing frame drives the screw rod to rotate, then the screw block outside the screw rod drives the mounting plate to move, so that the conical block at the bottom of the sampling rod is contacted with the ground, then the driving motor in the mounting plate converts received electric energy into mechanical energy, the driving motor drives the sampling rod to enter the ground, and then the geological mapping soil block enters the sampling rod, so that the position of geological mapping is convenient to sample; when taking a sample, impeller high-speed rotation in the pump body in the mount, water in the water tank gets into the pump body inside through the branch pipe afterwards, and the pump body is carried water through the fixed pipe in holding the liquid frame afterwards, then holds the shower nozzle in the liquid frame and spray the position of geological survey and drawing sample to be convenient for carry out dust fall with the position of geological survey and drawing sample and handle.

(2) According to the sampling device for geological mapping, when the fixing frame moves to the designated position, the threaded rod on the connecting frame is rotated, then the threaded rod drives the cone on the support plate to move, and then the cone enters the ground, so that the fixing frame is convenient to fix.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the overall structure of a sampling device for geological mapping according to the present utility model;

FIG. 2 is a schematic diagram showing the internal structure of a fixing frame of a sampling device for geological mapping;

FIG. 3 is a schematic view of a sampling rod of a sampling device for geological mapping according to the present utility model;

In the figure: 1. a servo motor; 2. a screw rod; 3. a mounting plate; 4. a driving motor; 5. a sampling rod; 6. a spiral sheet; 7. a cone block; 8. a liquid storage rack; 9. a spray head; 10. a through groove; 11. a fixing frame; 12. a silk block; 13. a sliding sleeve; 14. a water tank; 15. a vertical rod; 16. a rubber sleeve; 17. a branch pipe; 18. a connecting frame; 19. a threaded rod; 20. a support plate; 21. a cone; 22. a fixed tube; 23. a pump body.

Detailed Description

The utility model is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

In order to perform dust fall treatment on a position of geological mapping sampling, as shown in fig. 1, 2 and 3, as an embodiment of the utility model, the sampling device for geological mapping of the utility model comprises a fixing frame 11 and a sampling rod 5, wherein one side of the fixing frame 11 is connected with a servo motor 1 driving a screw rod 2 to rotate through a bolt, a screw block 12 driving a mounting plate 3 to move is connected with the outer side of the screw rod 2 through threads, a driving motor 4 driving the sampling rod 5 to perform geological mapping sampling is connected with the inner side of the mounting plate 3 through a bolt, a spiral sheet 6 enabling the sampling rod 5 to conveniently sample is welded on the outer side of the sampling rod 5, a cone block 7 enabling the sampling rod 5 to enter the ground is welded on the bottom of the sampling rod 5, a water tank 14 connected with a branch pipe 17 is fixed on the outer side of the fixing frame 11 through screws, one end of the branch pipe 17 far away from the water tank 14 is fixed with a pump body 23 for conveying water in the water tank 14, a fixing pipe 22 connected with a liquid storage frame 8 through a fixing pipe 22 connected with the screw on one side of the pump body 23, a dust fall nozzle 9 is fixed on the inner side of the liquid storage frame 8 through screws, and a through groove 10 is formed on the surface of the fixing frame 11.

When the device is used, when a geological mapping position is to be sampled, the servo motor 1 on the fixing frame 11 drives the screw rod 2 to rotate, then the screw block 12 outside the screw rod 2 drives the mounting plate 3 to move, so that the cone block 7 at the bottom of the sampling rod 5 is in contact with the ground, then the driving motor 4 in the mounting plate 3 converts received electric energy into mechanical energy, the driving motor 4 drives the sampling rod 5 to enter the ground, and then the geological mapping soil block enters the sampling rod 5, so that the geological mapping position is convenient to sample;

when taking a sample, impeller in the pump body 23 in the mount 11 rotates at a high speed, water in the water tank 14 enters the pump body 23 through the branch pipe 17, and then the pump body 23 conveys water into the liquid storage frame 8 through the fixed pipe 22, and then the spray nozzle 9 in the liquid storage frame 8 sprays the position of geological mapping sampling, so that dust fall treatment is carried out on the position of geological mapping sampling.

In order to fix the fixing frame 11, as shown in fig. 1, the utility model further includes, for example, a connecting frame 18 for driving the support plate 20 to move by the threaded rod 19 is fixed on the outer portion of the fixing frame 11 by bolts, and a cone 21 entering the ground is welded on one side of the support plate 20.

When the fixing frame 11 is moved to a designated position in use, the threaded rod 19 on the connecting frame 18 is rotated, then the threaded rod 19 drives the cone 21 on the support plate 20 to move, and then the cone 21 enters the ground, so that the fixing frame 11 is conveniently fixed.

To facilitate rotation of the threaded rod 19, as shown in fig. 1, the present utility model further includes, for example, a rubber sleeve 16 for increasing friction force is screwed on the outer side of the threaded rod 19.

In use, when the threaded rod 19 is rotated, the rubber sleeve 16 outside the threaded rod 19 increases the friction on the surface of the threaded rod 19, facilitating the rotation of the threaded rod 19.

In order to improve the stability of the movement of the mounting plate 3, as shown in fig. 1, the utility model further comprises, for example, a sliding sleeve 13 welded on the outside of the mounting plate 3 and sliding on the outside of a vertical rod 15 welded on one side of the fixing frame 11.

When the mounting plate 3 moves in use, the sliding sleeve 13 outside the mounting plate 3 slides outside the vertical rod 15, so that the moving stability of the mounting plate 3 is improved.

In order to make the electric equipment work normally, as shown in fig. 1 and 2, the utility model further includes, for example, that the input ends of the servo motor 1, the driving motor 4 and the pump body 23 are electrically connected with the output end of the external power supply.

When in use, the electric equipment works normally by connecting an external power supply.

When the device is used, when a geological mapping position is to be sampled, the servo motor 1 on the fixing frame 11 drives the screw rod 2 to rotate, then the screw block 12 outside the screw rod 2 drives the mounting plate 3 to move, so that the cone block 7 at the bottom of the sampling rod 5 is contacted with the ground, then the driving motor 4 in the mounting plate 3 converts received electric energy into mechanical energy, the driving motor 4 drives the sampling rod 5 to enter the ground, and then geological mapping soil blocks enter the sampling rod 5, so that the geological mapping position is convenient to sample;

When sampling is carried out, the impeller in the pump body 23 in the fixing frame 11 rotates at a high speed, then water in the water tank 14 enters the pump body 23 through the branch pipe 17, then the pump body 23 conveys the water into the liquid storage frame 8 through the fixing pipe 22, and then the spray head 9 in the liquid storage frame 8 sprays the position of geological mapping sampling, so that dust fall treatment is carried out on the position of geological mapping sampling conveniently;

When the fixing frame 11 moves to a designated position, the threaded rod 19 on the connecting frame 18 is rotated, then the threaded rod 19 drives the cone 21 on the support plate 20 to move, and then the cone 21 enters the ground, so that the fixing frame 11 is conveniently fixed;

When the threaded rod 19 is rotated, the rubber sleeve 16 outside the threaded rod 19 increases the friction force on the surface of the threaded rod 19, so that the threaded rod 19 can be rotated conveniently;

when the mounting plate 3 moves, the sliding sleeve 13 outside the mounting plate 3 slides outside the vertical rod 15, so that the stability of the movement of the mounting plate 3 is improved.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a sampling device for geological survey, its characterized in that, including mount (11) and sampling rod (5), mount (11) one side bolted connection has and drives lead screw (2) and carry out pivoted servo motor (1), lead screw (2) outside threaded connection has and drives screw block (12) that mounting panel (3) moved, the inboard bolted connection of mounting panel (3) has drive sampling rod (5) and carries out driving motor (4) of geological survey sample, the welding of sampling rod (5) outside has flight (6) that make sampling rod (5) conveniently sample, sampling rod (5) bottom welding has awl piece (7) that make sampling rod (5) get into subaerial, mount (11) outside screw fixation has water tank (14) of connecting branch pipe (17), one end screw fixation that water tank (14) were kept away from to branch pipe (17) has pump body (23) of carrying water tank (14), screw fixation pipe (22) that are connected with holds liquid frame (8) of holding, screw fixation in liquid frame (8) is equipped with dust fall's (9), when opening shower nozzle (11) surface and carrying out sampling groove (10).

2. The sampling device for geological mapping according to claim 1, wherein a connecting frame (18) for enabling a threaded rod (19) to drive a support plate (20) to move is fixed on the outer portion of the fixing frame (11) through bolts, and a cone (21) entering the ground is welded on one side of the support plate (20).

3. A geological mapping sampling device according to claim 2, characterized in that the screw outside the threaded rod (19) is screwed with a friction enhancing rubber sleeve (16).

4. The sampling device for geological mapping according to claim 1, characterized in that the outside of the mounting plate (3) is welded with a sliding sleeve (13) which slides outside a vertical rod (15) welded at one side of a fixing frame (11).

5. The sampling device for geological mapping according to claim 1, wherein the input ends of the servo motor (1), the driving motor (4) and the pump body (23) are electrically connected with the output end of an external power supply.