CN116256194A

CN116256194A - Geological exploration drilling sampling device and sampling method for intelligent mine

Info

Publication number: CN116256194A
Application number: CN202211204916.XA
Authority: CN
Inventors: 武拴军; 米文满; 王虎; 王俊超; 刘鹏山; 张琳琳; 尚金泉
Original assignee: Jinchuan Group Co Ltd
Current assignee: Jinchuan Group Nickel Cobalt Co ltd
Priority date: 2022-09-29
Filing date: 2022-09-29
Publication date: 2023-06-13

Abstract

The invention discloses a geological exploration drilling sampling device and a sampling method for an intelligent mine, which belong to the technical field of geological exploration sampling and comprise a supporting component and a sampling mechanism, wherein the supporting component is connected with the sampling mechanism through a connecting seat, a motor is arranged at the bottom of the connecting seat, a fixed box is connected to the output end of the motor, a connecting device is movably arranged on the fixed box, fixed rods are arranged at the front end and the rear end of the bottom of the fixed box, the bottom of the fixed rod is connected to the top of the sampling component, a transmission pipe is arranged at one side of the fixed box, a water pump is arranged on the fixed box, a water outlet of the water pump is communicated with a water supply pipe, the top of the fixed box is communicated with a cooling water storage device through the water supply pipe, the cooling water storage device comprises a storage component and an extrusion device, the storage component is communicated with the transmission pipe, the storage component is attached to each other, and cooling water in a water storage cavity is pumped out to pressurize a push plate at the top of the sample, so that the cooling water after use and the sample can be taken out at the same time after the sampling is finished.

Description

Geological exploration drilling sampling device and sampling method for intelligent mine

Technical Field

The invention belongs to the technical field of geological exploration sampling, and particularly relates to a geological exploration drilling sampling device and a sampling method for an intelligent mine.

Background

The geological mineral exploration is based on advanced geological science theory, and based on occupying a large amount of field geological observation and collecting and arranging related geological data, adopts comprehensive geological means and methods such as geological measurement, physical exploration, pit drilling engineering and the like to acquire reliable geological mineral information data.

When carrying out geological exploration, need to carry out the drilling sample through sampling device, to the geological survey drilling sampling device and the sampling method drilling sampling device for the geological exploration of wisdom mine building, it discloses: through the water filling mouth to the water storage intracavity add right amount cold water to install the rubber buffer at the top of water filling mouth, start driving motor through the switch, driving motor drives the inner tube through the output shaft and rotates, the inner tube drives the drill bit and rotates the hand wheel, the hand wheel promotes through screw rod and last axis of rotation and places the case, place the case and drive the diaphragm, the diaphragm descends at the inboard of support through last slider and last spout, the diaphragm drives urceolus and inner tube decline, the drill bit is to the ground probing, the heat that drill bit and inner tube produced is absorbed by the cold water in the water storage intracavity, the temperature reduces, after the probing is accomplished, reverse direction rotation hand wheel, make the diaphragm drive urceolus and inner tube rise, take out the sample in the inner tube, pour out the water in the water storage chamber, and clear up, the water in the inner tube is conveniently taken out through the water in the water storage chamber, but the sample in the inner tube and the water in the water storage chamber, for this reason, we propose geological survey sampling device and sampling method for wisdom mine.

Disclosure of Invention

The technical problem to be solved by the invention is to solve the problems existing in the background technology center.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a geological survey probing sampling device and sampling method for wisdom mine, includes supporting component and sampling mechanism, the supporting component passes through the connecting seat and is connected with sampling mechanism, the bottom of connecting seat is provided with the motor, the output of motor is connected with the fixed box, fixed box movable mounting has connecting device, both ends all are provided with the dead lever around the fixed box bottom, and the bottom of dead lever is connected at the top of sampling component, one side of fixed box is provided with the transfer line, be provided with the water pump on the fixed box, the delivery port intercommunication water supply pipe of water pump, the top of fixed box is through water supply pipe and cooling water storage device intercommunication, cooling water storage device includes storage component and extrusion device, storage component and transfer line intercommunication, storage component laminating mutually.

The supporting component comprises a fixed frame, one side at the top of the fixed frame is provided with a control panel, the middle area at the top of the fixed frame is provided with a cylinder, the output end of the cylinder is connected with a connecting block, the connecting block is fixedly connected with a connecting seat, the bottoms of the two sides of the fixed frame are respectively provided with a supporting plate, the bottoms of the two sides of the fixed frame are respectively provided with a ground inserting device, the fixed frame is provided with a guide rod, the guide rod penetrates through the connecting block, and one side of the fixed frame is provided with a guide groove.

The ground inserting device comprises a threaded sleeve connected to the supporting plate, the cross section of the threaded sleeve is of an inverted T-shaped structure, a threaded inserted rod is connected to the interior of the threaded sleeve, and the bottom end of the threaded inserted rod is in a pointed cone shape.

The connecting device comprises a baffle inside a fixed box, the baffle is located above a transmission pipe, vertical rods are arranged at the periphery of the top of the baffle, top ends of the vertical rods penetrate through the fixed box and are connected with top blocks, the bottoms of the top blocks are provided with first springs, the bottoms of the first springs are connected to the upper surface of the fixed box, connecting rods are arranged at the bottoms of the baffle, and pushing plates are connected to the bottom ends of the connecting rods through the fixed box.

The sampling assembly comprises a sampling tube at the bottom of a fixing rod, drilling teeth are uniformly arranged at the bottom of the sampling tube in a circumferential direction, the inner top of the sampling tube is attached to a pushing plate, an annular water storage cavity is formed in the sampling tube, a water adding pipe and a water pumping pipe are arranged at the top of the sampling tube, the water pumping pipe is communicated with a water inlet of a water pump, a turbulence piece is uniformly arranged at the inner circumferential direction of the water storage cavity, and the turbulence piece is of an isosceles trapezoid structure.

The storage assembly comprises a water tank arranged on the left side in the supporting plate, a drain pipe is arranged at the bottom of the side wall of the water tank, a fixing pipe communicated with the transmission pipe is arranged at the top of the water tank, a filter plate is arranged on the upper portion of the inner wall of the water tank, a push rod is attached to the top of the filter plate, a fixing piece penetrating through the water tank is arranged on the push rod, the fixing piece comprises a cross rod arranged on the push rod, the cross rod penetrates through the water tank, a mounting block is arranged on the cross rod, a second spring connected with the water tank is arranged on the mounting block, and a roller is arranged on the mounting block.

The extrusion device comprises an extrusion plate in rolling connection with the roller, one surface of the extrusion plate, which is in contact with the roller, is inclined, a movable rod is arranged on the extrusion plate and is hinged with the connecting block, and the movable rod penetrates through the guide groove.

A sampling method for a geological survey drilling sampling device for an intelligent mine, comprising the following steps:

s1: the supporting plate is flatly placed at the area to be sampled through the ground inserting device, cooling water in the water tank is taken out through the drain pipe, and then the cooling water is added into the water storage cavity through the water adding pipe;

s2: the cylinder is controlled to work through the control panel, so that the connecting block drives the drilling teeth to contact the ground, then the motor is controlled to work, the fixed box drives the sampling tube to rotate through the fixed rod, and then the ground can be drilled through the drilling teeth;

s3: the drill teeth penetrate into the ground, so that samples can be fed into the sampling tube, when the sampling tube and the drill teeth rotate, the turbulence piece rotates along with the rotation, so that cooling water in the water storage cavity can be disturbed, the sampling tube and the drill teeth can be cooled better, after the samples are taken, the sampling tube returns to the upper part of the ground through the air cylinder until the transmission tube and the fixed tube are mutually communicated, the water pump is started, the used cooling water is pumped out by the water pumping tube and is fed into the fixed box through the water feeding tube, the baffle plate is subjected to downward movement under pressure along with the increase of the fed water, and then the push plate on the connecting rod is driven to move on the inner wall of the sampling tube, so that the samples of the sampling tube are extruded;

s4: when the push plate presses out the sample, the partition plate just moves to the lower part of the transmission pipe at the moment and cannot move downwards again, so that the water used above the partition plate can be discharged into the water tank through the transmission pipe by manually holding the connecting rod.

Compared with the prior art, the invention has the following beneficial effects:

through the movable connecting device, when the sampling is finished, the cooling water in the water storage cavity can be pumped out simultaneously to pressurize the push plate at the top of the sample, so that the used cooling water and the sample can be taken out simultaneously and conveniently when the sampling is finished; through setting up storage device and extrusion device, can guarantee the cleanness of cooling water, avoid the cooling water to block up the pipeline when recycling.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of a sampling mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a sampling device according to an embodiment of the present invention;

FIG. 4 is a schematic view of a cooling water storage assembly according to an embodiment of the present invention;

figure number and name: 1. a support assembly; 11. a fixed frame; 12. a control panel; 13. a cylinder; 14. a connecting block; 15. a support plate; 2. a sampling mechanism; 21. a connecting seat; 22. a motor; 23. a fixed box; 24. a connecting device; 241. a partition plate; 242. a vertical rod; 243. a connecting rod; 244. a push plate; 25. a fixed rod; 26. a sampling assembly; 261. a sampling tube; 262. drilling teeth; 263. a water storage cavity; 264. a water supply pipe; 265. a water pumping pipe; 266. a spoiler; 27. a transmission tube; 28. a water pump; 29. a water supply pipe; 3. a cooling water storage device; 31. a storage component; 311. a water tank; 312. a drain pipe; 313. a fixed tube; 314. a filter plate; 315. a push rod; 316. a fixing member; 32. an extrusion device; 321. an extrusion plate; 322. a movable rod.

Detailed Description

The present invention will now be described in detail with reference to the drawings and the specific embodiments thereof, wherein the illustrative embodiments and descriptions of the invention are for illustration, but not for limitation.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Examples

As shown in fig. 1-3, the geological survey drilling sampling device and sampling method for intelligent mines comprise a supporting component 1 and a sampling mechanism 2, wherein the supporting component 1 is connected with the sampling mechanism 2 through a connecting seat 21, a motor 22 is arranged at the bottom of the connecting seat 21, a fixed box 23 is connected to the power end of the motor 22 through a speed reducer, a connecting device 24 is movably arranged on the fixed box 23, fixed rods 25 are arranged at the front end and the rear end of the bottom of the fixed box 23, the bottom of the fixed rod 25 is connected to a sampling component 26, a transmission pipe 27 is communicated with the fixed box 23, a water pump 28 is arranged on the fixed box 23, a water outlet of the water pump 28 is communicated with a water delivery pipe 29, and the water delivery pipe 29 is communicated with the top of the fixed box 23, so that when the water pump 28 works, water can be delivered into the fixed box 23 through the water delivery pipe 29; and the cooling water storage assembly 3 comprises a storage assembly 31 arranged on the support assembly 1, wherein the storage assembly 31 is communicated with the transmission pipe 27, and the storage assembly 31 is connected with the extrusion device 32 in a fitting way.

Referring to fig. 1, the support assembly 1 includes a fixed frame 11, one side of the top of the fixed frame 11 is provided with a control panel 12 for controlling a cylinder 13 and a motor 22, a middle area of the top of the fixed frame 11 is provided with a cylinder 13, a power end of the bottom of the cylinder 13 is connected with a connecting block 14, the connecting block 14 is fixedly connected with a connecting seat 21, the connecting block 14 can be lifted through the cylinder 13, the bottoms of the two sides of the fixed frame 11 are both provided with a support plate 15, and the support plate 15 is provided with a ground inserting device.

Referring to fig. 1, a guide rod penetrating through the connection block 14 is provided on the fixing frame 11, so that the connection block 14 is more stable when moving, and a guide groove is provided on one side of the fixing frame 11.

Referring to fig. 1, the ground inserting device includes a threaded sleeve connected to the support plate 15, and the cross section of the threaded sleeve is of an inverted T-shaped structure, the threaded sleeve is internally connected with a threaded insert rod, and the bottom end of the threaded insert rod is of a pointed cone shape, so that the device is conveniently and smoothly installed on the ground.

Referring to fig. 1 to 2, the connecting device 24 includes a partition plate 241 attached to the inner wall of the fixed case 23, the partition plate 241 is located above the transmission pipe 27, vertical rods 242 are all disposed around the top of the partition plate 241, the top ends of the vertical rods 242 penetrate through the fixed case 23 and are connected with top blocks, the bottoms of the top blocks are provided with springs one, the bottoms of the springs one are connected to the fixed case 23, the partition plate 241 is elastically and slidably connected to the inner wall of the fixed case 23 through the springs one, connecting rods 243 are disposed at the bottoms of the partition plate 241, and push plates 244 penetrate through the fixed case 23.

Referring to fig. 1 to 3, the sampling assembly 26 includes a sampling tube 261 disposed at the bottom of the fixed rod 25, a drilling tooth 262 is uniformly disposed at the bottom of the sampling tube 261 in a circumferential direction, the top of the inner wall of the sampling tube 261 is connected with the push plate 244 in a fitting manner, an annular water storage cavity 263 is disposed in the sampling tube 261, a water adding tube 264 and a water pumping tube 265 are disposed at the top of the sampling tube 261 and communicated with the water storage cavity 263, the water pumping tube 265 is communicated with a water inlet of the water pump 28, a spoiler 266 is uniformly disposed in the water storage cavity 263 in a circumferential direction, and when the sampling tube 261 and the drilling tooth 262 rotate, the spoiler 266 rotates along with the cooling water in the water storage cavity 263, so that the sampling tube 261 and the drilling tooth 262 can be cooled better.

Referring to fig. 1 to 3, the spoiler 266 is a spoiler disposed on an inner wall of the water storage cavity 263, and has an isosceles trapezoid structure, so that cooling water can be separated when the spoiler rotates, thereby facilitating spoiler.

Referring to fig. 1 and 4, the storage assembly 31 includes a water tank 311 disposed on a left support plate 15, the water tank 311 is provided with a cooling water cooling structure having a temperature, so as to facilitate the subsequent recycling, a drain pipe 312 is disposed at the bottom of a side wall of the water tank 311, so as to facilitate the recycling of the cooling water, a fixing pipe 313 is disposed at the top of the water tank 311 and communicated with the transmission pipe 27, a filter plate 314 is disposed at the upper portion of an inner wall of the water tank 311, the filter plate 314 is used for filtering the cooling water fed from the fixing pipe 313, a push rod 315 is attached to the top of the filter plate 314, the push rod 315 is used for scraping impurities above the filter plate 314, and a fixing member 316 penetrating the water tank 311 is disposed on the push rod 315, wherein the fixing member 316 includes a cross rod disposed on the push rod 315, a mounting block is disposed on the cross rod, a second spring connected with the water tank 311 is disposed on the mounting block, a roller is disposed on the mounting block, a movable door opposite to the push rod 315 is disposed on the water tank 311, and the movable plate is opened when pushing out impurities.

Referring to fig. 1 and 4, the extruding device 32 includes an extruding plate 321 in rolling connection with the roller, one surface of the extruding plate 321 contacting with the roller is inclined, a movable rod 322 on the connecting block 14 is arranged on the extruding plate 321, and the movable rod 322 penetrates through the guide groove, when the connecting block 14 moves downwards each time, the movable rod 322 can extrude the roller through the extruding plate 321, so that the push rod 315 moves forwards, impurities can be pushed out, the cleaning of cooling water can be ensured through the filter plate 314 and the push rod 315, and the blocking of the pipeline by the cooling water during the recycling process is avoided.

A sampling method for a geological exploration drilling sampling device for an intelligent mine comprises the following steps:

s1: the supporting plate 15 is flatly placed at the area to be sampled by the earth inserting device, cooling water in the water tank 311 is taken out by the water discharging pipe 312, and then the cooling water is added into the water storage cavity 263 by the water adding pipe 264;

s2: the cylinder 13 is controlled to work through the control panel 12, so that the connecting block 14 drives the drilling teeth 262 to contact the ground, then the motor 22 is controlled to work, so that the fixed box 23 drives the sampling cylinder 261 to rotate through the fixed rod 25, and the ground can be drilled through the drilling teeth 262;

s3: as the drilling teeth 262 penetrate into the ground, the inside of the sampling tube 261 can enter a sample, when the sampling tube 261 and the drilling teeth 262 rotate, the turbulence piece 266 follows the rotation, so that cooling water in the water storage cavity 263 can be disturbed, the sampling tube 261 and the drilling teeth 262 can be conveniently cooled down well, after the sample is taken, the sampling tube 261 returns to the upper part of the ground through the air cylinder 13 until the transmission tube 27 and the fixed tube 313 are mutually communicated, the water pump 28 is started, the used cooling water is pumped out by the water pumping tube 265, the cooling water is fed into the fixed box 23 through the water feeding tube 29, and as the fed water is increased, the partition plate 241 is subjected to downward movement under pressure, and then the push plate 244 on the connecting rod 243 is driven to move on the inner wall of the sampling tube 261, so that the sample of the sampling tube 261 is extruded;

s4: when the push plate 244 presses out the sample, the partition 241 is moved just under the transfer pipe 27 and cannot be further moved downward, so that the water used above the partition 241 can be discharged into the water tank 311 through the transfer pipe 27 by manually holding the connection rod 243.

The foregoing has outlined the detailed description of the embodiments of the present invention, and the detailed description of the embodiments and the embodiments of the present invention has been provided herein by way of illustration of specific examples, which are intended to be merely illustrative of the principles of the embodiments of the present invention.

Claims

1. The utility model provides a geological survey drilling sampling device for wisdom mine, includes supporting component (1) and sampling mechanism (2), supporting component (1) are connected its characterized in that with sampling mechanism (2) through connecting seat (21): the bottom of connecting seat (21) is provided with motor (22), the output of motor (22) is connected with fixed case (23), fixed case (23) movable mounting has connecting device (24), both ends all are provided with dead lever (25) around fixed case (23) bottom, and the top at sampling module (26) is connected to the bottom of dead lever (2), one side of fixed case (23) is provided with transmission pipe (27), be provided with water pump (28) on fixed case (23), the delivery port intercommunication water supply pipe (29) of water pump (28), the top of fixed case (23) is through water supply pipe (29) and cooling water storage device (3) intercommunication, cooling water storage device (3) are including storage module (31) and extrusion device (32), storage module (31) and transmission pipe (27) intercommunication, storage module (31) laminating mutually.

2. A geological survey drilling sampling apparatus for intelligent mines according to claim 1, characterized in that: the supporting component (1) comprises a fixed frame (11), one side at the top of the fixed frame (11) is provided with a control panel (12), the middle area at the top of the fixed frame (11) is provided with a cylinder (13), the output end of the cylinder (13) is connected with a connecting block (14), the connecting block (14) is fixedly connected with a connecting seat (21), the bottoms at the two sides of the fixed frame (11) are respectively provided with a supporting plate (15), the supporting plates (15) are respectively provided with a ground inserting device, the fixed frame (11) is provided with a guide rod, the guide rod penetrates through the connecting block (14), and one side of the fixed frame (11) is provided with a guide groove.

3. A geological survey drilling sampling apparatus for intelligent mines according to claim 2, characterized in that: the ground inserting device comprises a threaded sleeve connected to a supporting plate (15), the cross section of the threaded sleeve is of an inverted T-shaped structure, a threaded inserted rod is connected to the interior of the threaded sleeve, and the bottom end of the threaded inserted rod is in a pointed cone shape.

4. A geological survey drilling sampling apparatus for intelligent mines according to claim 1, characterized in that: connecting device (24) are including fixed case (23) inside baffle (241), baffle (241) are located the top of transmission pipe (27), the top department all is provided with montant (242) all around of baffle (241), the top of montant (242) all runs through fixed case (23) and is connected with the kicking block, the bottom of kicking block all is provided with spring one, the bottom of spring one is connected at fixed case (23) upper surface, the bottom of baffle (241) is provided with connecting rod (243), the bottom of connecting rod (243) runs through fixed case (23) and is connected with push pedal (244).

5. A geological survey drilling sampling apparatus for intelligent mines according to claim 1, characterized in that: sampling subassembly (26) are including sample section of thick bamboo (261) of dead lever (25) bottom, the bottom hoop of sample section of thick bamboo (261) evenly is provided with bores tooth (262), the interior top of sample section of thick bamboo (261) is laminated with push pedal (244), the inside of sample section of thick bamboo (261) is provided with annular water storage chamber (263), the top of sample section of thick bamboo (261) is provided with water pipe (264) and drinking-water pipe (265), the water inlet intercommunication of drinking-water pipe (265) and water pump (28), the inside even hoop of water storage chamber (263) is provided with vortex piece (266), vortex piece (266) are isosceles trapezoid structure.

6. A geological survey drilling sampling apparatus for intelligent mines according to claim 1, characterized in that: the storage assembly (31) comprises a water tank (311) arranged on the left side of the supporting plate (15), a drain pipe (312) is arranged at the bottom of the side wall of the water tank (311), a fixed pipe (313) communicated with the transmission pipe (27) is arranged at the top of the water tank (311), a filter plate (314) is arranged on the upper portion of the inner wall of the water tank (311), a push rod (315) is attached to the top of the filter plate (314), a fixing piece (316) penetrating through the water tank (311) is arranged on the push rod (315), the fixing piece (316) comprises a cross rod arranged on the push rod (315), the cross rod penetrates through the water tank (311), a mounting block is arranged on the cross rod, a second spring connected with the water tank (311) is arranged on the mounting block, and a roller is arranged on the mounting block.

7. A geological survey drilling sampling apparatus for intelligent mines according to claim 1, characterized in that: the extrusion device (32) comprises an extrusion plate (321) in rolling connection with the roller, one surface of the extrusion plate (321) in contact with the roller is inclined, a movable rod (322) is arranged on the extrusion plate (321), the movable rod (322) is hinged with the connecting block (14), and the movable rod (322) penetrates through the guide groove.

8. A sampling method for a geological survey drilling sampling device for intelligent mines according to claims 1-7, characterized by the following steps:

s1: the supporting plate (15) is flatly placed at the area to be sampled through the ground inserting device, cooling water in the water tank (311) is taken out through the water discharging pipe (312), and then the cooling water is added into the water storage cavity (263) through the water adding pipe (264);

s2: the cylinder (13) is controlled to work through the control panel (12), the connecting block (14) drives the drilling teeth (262) to contact the ground, then the motor (22) is controlled to work, the fixed box (23) drives the sampling cylinder (261) to rotate through the fixed rod (25), and then the drilling teeth (262) can drill into the ground;

s3: as the drilling teeth (262) penetrate into the ground, a sample can enter the sampling tube (261), when the sampling tube (261) and the drilling teeth (262) rotate, the turbulence piece (266) rotates along with the rotation, so that cooling water in the water storage cavity (263) can be disturbed, the sampling tube (261) and the drilling teeth (262) can be cooled better, after the sample is taken, the sampling tube (261) returns to the upper part of the ground through the air cylinder (13), until the transmission tube (27) and the fixed tube (313) are mutually communicated, the water pump (28) is started, the used cooling water is extracted by the water pumping tube (265), the cooling water is fed into the fixed box (23) through the water feeding tube (29), and as the fed water is increased, the partition plate (241) is subjected to pressure downward movement, and then the push plate (244) on the connecting rod (243) is driven to move on the inner wall of the sampling tube (261), so that the sample of the sampling tube (261) is extruded;

s4: when the push plate (244) presses out the sample, the partition plate (241) just moves to the lower part of the transmission pipe (27) and cannot move downwards, so that the connecting rod (243) is held manually, and water above the partition plate (241) after being used can be discharged into the water tank (311) through the transmission pipe (27).