CN221199018U - Rock stratum sample sampling device for mine geological detection - Google Patents

Abstract

The utility model belongs to the field of sample sampling, in particular to a rock stratum sample sampling device for mining geological detection, aiming at the problems that in the prior art, equipment is easy to deviate in the process of sampling, a large amount of soil is easy to adhere to the surface of a rotary drum after sampling is finished, and secondary use is easy to be affected.

Description

Rock stratum sample sampling device for mine geological detection

Technical Field

The utility model relates to the technical field of sample sampling, in particular to a rock stratum sample sampling device for mine geological detection.

Background

The field geological exploration is to survey and detect geology by various means and methods, determine a proper bearing layer, determine a foundation type according to the foundation bearing capacity of the bearing layer, and calculate investigation and research activities of foundation parameters. The method is used for finding out mineral deposits with industrial significance in mineral screening, providing mineral reserves and geological data required by mine construction design and researching geological conditions such as rock, stratum, structure, mineral, hydrology, landform and the like in a certain area in order to find out the quality and quantity of mineral and the technical conditions of exploitation and utilization.

The patent document with the publication number of CN218546209U discloses a rock stratum sample sampling device for mining geological detection, which comprises a movable base frame, wherein a positioning component for limiting fixed-point operation of a drilling barrel and a sampling mechanism for drilling a mining rock stratum are arranged on the base frame, and the positioning component is matched with the sampling mechanism and is correspondingly arranged; the positioning assembly comprises sliding rails fixed on two sides of the top of the base frame, the sliding end of each sliding rail is provided with a distance adjusting plate, and the base frame and the distance adjusting plates are respectively provided with a lower positioning groove and an upper positioning groove. The utility model achieves the purpose of positioning the drilling barrel to prevent dislocation when the drilling barrel is drilled, can ensure the stability of the drilling barrel when the drilling barrel is initially drilled into the rock stratum, and provides a limiting area for the drilling barrel by utilizing the rotatable positioning roller, so that the drilling position can be accurately positioned, the phenomenon of sampling position deviation is avoided, and the convenience of sampling the mine rock stratum is improved.

In the prior art, in the in-process of taking a sample, equipment produces the skew easily, and the back is accomplished in the sample, and rotary drum surface adhesion a large amount of earth easily influences the secondary use easily.

Therefore, we propose a rock stratum sample sampling device for geological exploration of mines, which is used for solving the problems.

Disclosure of utility model

The utility model aims to solve the defects that in the prior art, equipment is easy to deviate in the sampling process, a large amount of soil is easy to adhere to the surface of a rotary drum after the sampling is finished, and secondary use is easy to influence.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The utility model provides a rock stratum sample sampling device of mine geology detection, includes main part and four universal wheels, and four universal wheels are located the bottom four corners of main part respectively, and one side of universal wheel is equipped with clean mechanism and fixed establishment, one side of main part is equipped with cleans the mechanism, the inside rotation of main part is connected with first screw rod and second screw rod, and equal threaded connection has the movable plate on first screw rod and the second screw rod, and one side rotation of two movable plates is connected with same rotary drum, first band pulley and second band pulley of fixedly connected with respectively on first screw rod and the second screw rod, and the transmission is connected with same first belt on first band pulley and the second band pulley, the fixed first motor that is equipped with in top of main part, and the output shaft and the first screw rod fixed connection of first motor.

Preferably, the bottom fixedly connected with support of movable plate, and fixedly on the support be equipped with the second motor, and fixedly mounted has the spliced pole on the output shaft of second motor, and the one end fixedly connected with first bevel gear of spliced pole, and first bevel gear meshing is connected with second bevel gear, second bevel gear and rotary drum fixed connection.

Preferably, the cleaning mechanism comprises a cleaning cylinder, and the cleaning cylinder is rotatably connected with the main body.

Preferably, one end fixedly connected with bull stick of first screw rod, and the one end fixedly connected with third band pulley of bull stick.

Preferably, the cleaning cylinder is fixedly connected with a fourth belt wheel, and the fourth belt wheel and the third belt wheel are in transmission connection with the same second belt.

Preferably, the inside of rotary drum is fixed and is equipped with electric putter, and fixedly connected with clamp plate on electric putter's the output shaft, and clamp plate and rotary drum sliding connection.

Preferably, the fixing mechanism comprises a first reciprocating screw and a second reciprocating screw, the first reciprocating screw and the second reciprocating screw are rotationally connected with the main body, a fifth belt wheel and a sixth belt wheel are respectively and fixedly connected with the first reciprocating screw and the second reciprocating screw, and the sixth belt wheel and the fifth belt wheel are in transmission connection with the same third belt.

Preferably, the first reciprocating screw and the second reciprocating screw are respectively connected with four clamping plates in a threaded manner, the eight clamping plates are in sliding connection with the main body, a third motor is fixedly arranged on the inner wall of the main body, and an output shaft of the third motor is fixedly connected with the first reciprocating screw.

In the utility model, the rock stratum sample sampling device for mine geological detection has the beneficial effects that:

Because the main body, the universal wheel, the first screw rod, the second screw rod, the moving plate, the rotary drum, the first belt wheel, the second belt wheel, the first belt, the first motor, the bracket, the second motor, the rotating column, the first bevel gear and the second bevel gear are arranged, the rotary drum can be used for sampling;

The cleaning cylinder, the fourth belt wheel, the third belt wheel and the second belt are arranged, so that the surface of the rotary cylinder can be cleaned, a large amount of soil is prevented from being remained, and secondary use is prevented from being influenced;

Because the electric push rod and the pressing plate are arranged, the sample in the rotary drum can be pushed out, so that residues are prevented from being generated, and the next sampling is influenced;

because set up first reciprocating screw, second reciprocating screw, fifth band pulley, sixth band pulley, third belt, grip block and third motor, can fix equipment, equipment produces the skew when preventing the sample, influences work efficiency.

The utility model can clean the surface of the rotary drum, prevent a large amount of soil from remaining on the surface of the rotary drum to affect secondary use, fix equipment and prevent the equipment from shifting during sampling to affect sampling efficiency.

Drawings

FIG. 1 is a schematic top perspective view of a rock sample sampling device for geological exploration of mines according to the present utility model;

FIG. 2 is a schematic bottom perspective view of a rock sample sampling device for geological exploration of mines according to the present utility model;

FIG. 3 is a schematic view of a portion A of a rock sample sampling device for geological exploration in mines according to the present utility model;

FIG. 4 is a schematic diagram of the internal three-dimensional structure of a rotary drum of a rock stratum sample sampling device for geological detection of mines;

fig. 5 is a schematic diagram of the internal three-dimensional structure of the main body of the rock stratum sample sampling device for mine geological exploration.

In the figure: 1. a main body; 2. a universal wheel; 3. a first screw; 4. a second screw; 5. a moving plate; 6. a rotating drum; 7. a first pulley; 8. a second pulley; 9. a first belt; 10. a first motor; 11. a bracket; 12. a second motor; 13. rotating the column; 14. a first bevel gear; 15. a second bevel gear; 16. a cleaning cylinder; 17. a fourth pulley; 18. a third pulley; 19. a second belt; 20. an electric push rod; 21. a pressing plate; 22. a first reciprocating screw; 23. a second reciprocating screw; 24. a fifth pulley; 25. a sixth pulley; 26. a third belt; 27. a clamping plate; 28. and a third 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.

Example 1

Referring to fig. 1-5, a rock stratum sample sampling device for mine geological exploration comprises a main body 1 and four universal wheels 2, wherein the four universal wheels 2 are respectively located at four corners of the bottom of the main body 1, one side of each universal wheel 2 is provided with a cleaning mechanism and a fixing mechanism, one side of the main body 1 is provided with a cleaning mechanism, the inside of the main body 1 is rotationally connected with a first screw rod 3 and a second screw rod 4, the first screw rod 3 and the second screw rod 4 are in threaded connection with a movable plate 5, one side of each movable plate 5 is rotationally connected with the same rotary drum 6, the first screw rod 3 and the second screw rod 4 are respectively fixedly connected with a first belt wheel 7 and a second belt wheel 8, the first belt wheel 7 and the second belt wheel 8 are in transmission connection with the same first belt 9, the top of the main body 1 is fixedly provided with a first motor 10, and an output shaft of the first motor 10 is fixedly connected with the first screw rod 3.

In the utility model, the bottom of a moving plate 5 is fixedly connected with a bracket 11, a second motor 12 is fixedly arranged on the bracket 11, a rotating column 13 is fixedly arranged on an output shaft of the second motor 12, one end of the rotating column 13 is fixedly connected with a first bevel gear 14, the first bevel gear 14 is in meshed connection with a second bevel gear 15, and the second bevel gear 15 is fixedly connected with a rotary drum 6.

In the present utility model, the cleaning mechanism includes a cleaning cylinder 16, and the cleaning cylinder 16 is rotatably connected with the main body 1.

In the utility model, one end of the first screw 3 is fixedly connected with a rotating rod, and one end of the rotating rod is fixedly connected with a third belt wheel 18.

In the utility model, a fourth belt pulley 17 is fixedly connected to a cleaning cylinder 16, and the fourth belt pulley 17 and a third belt pulley 18 are in transmission connection with the same second belt 19.

In the utility model, an electric push rod 20 is fixedly arranged in the rotary drum 6, a pressing plate 21 is fixedly connected to an output shaft of the electric push rod 20, and the pressing plate 21 is in sliding connection with the rotary drum 6.

In the utility model, the fixing mechanism comprises a first reciprocating screw 22 and a second reciprocating screw 23, the first reciprocating screw 22 and the second reciprocating screw 23 are rotationally connected with the main body 1, a fifth belt pulley 24 and a sixth belt pulley 25 are respectively and fixedly connected with the first reciprocating screw 22 and the second reciprocating screw 23, and the sixth belt pulley 25 and the fifth belt pulley 24 are in transmission connection with the same third belt 26.

In the utility model, four clamping plates 27 are connected on the first reciprocating screw 22 and the second reciprocating screw 23 in a threaded manner, eight clamping plates 27 are connected with the main body 1 in a sliding manner, a third motor 28 is fixedly arranged on the inner wall of the main body 1, and an output shaft of the third motor 28 is fixedly connected with the first reciprocating screw 22.

In the utility model, when in use, the equipment is moved to a designated position through four universal wheels 2, then a third motor 28 is started, an output shaft of the third motor 28 drives a first reciprocating screw 22 to rotate, the first reciprocating screw 22 drives a sixth belt pulley 25 to rotate, and drives a fifth belt pulley 24 to rotate through a third belt 26, the fifth belt pulley 24 drives a second reciprocating screw 23 to rotate, the first reciprocating screw 22 and the second reciprocating screw 23 respectively drive four clamping plates 27 to be mutually close to each other, the universal wheels 2 are clamped and fixed, the equipment is kept stable, then a first motor 10 and a second motor 12 are started, the first motor 10 drives the first screw 3 to rotate, the first screw 3 drives the first belt pulley 7 to rotate, the first belt pulley 9 drives the second belt pulley 8 to rotate, the second belt pulley 8 drives the second screw 4 to rotate, the first screw 3 and the second screw 4 simultaneously drive the movable plate 5, the rotary drum 6, the bracket 11, the second motor 12, the rotary column 13, the first bevel gear 14 and the second bevel gear 15 move downwards to perform drilling and sampling, meanwhile, the output shaft of the second motor 12 drives the rotary column 13 to rotate, the rotary column 13 drives the first bevel gear 14 to rotate, the second bevel gear 15 drives the rotary drum 6 to rotate for sampling, after sampling is completed, the first screw 3 drives the third belt pulley 18 to rotate, the second belt 19 is utilized to drive the fourth belt pulley 17 to rotate, the cleaning cylinder 16 rotates to clean the surface of the rotary drum 6, samples in the rotary drum 6 are not affected, the electric push rod 20 is started, the electric push rod 20 drives the pressing plate 21, and the samples in the rotary drum 6 can be pushed out.

Example 2

The difference between this embodiment and the first embodiment is that: be equipped with the watering mechanism on the inner wall of main part 1, carry out watering to the surface of rotary drum 6, can be better clean the surface of rotary drum 6.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides a rock stratum sample sampling device of mine geology detection, includes main part (1) and four universal wheels (2), its characterized in that, four universal wheels (2) are located the bottom four corners of main part (1) respectively, and one side of universal wheel (2) is equipped with clean mechanism and fixed establishment, one side of main part (1) is equipped with cleans mechanism, the inside rotation of main part (1) is connected with first screw rod (3) and second screw rod (4), and equal threaded connection has movable plate (5) on first screw rod (3) and second screw rod (4), and one side rotation of two movable plates (5) is connected with same rotary drum (6), first screw rod (3) and second screw rod (4) are last respectively fixedly connected with first band pulley (7) and second band pulley (8), and drive connection has same first belt (9) on first band pulley (7), the top of main part (1) is fixed and is equipped with first motor (10), and the output shaft and first screw rod (3) of first motor (10) are fixed connection.

2. The rock stratum sample sampling device for mine geological exploration according to claim 1, wherein the bottom of the moving plate (5) is fixedly connected with a support (11), a second motor (12) is fixedly arranged on the support (11), a rotating column (13) is fixedly installed on an output shaft of the second motor (12), one end of the rotating column (13) is fixedly connected with a first bevel gear (14), the first bevel gear (14) is in meshed connection with a second bevel gear (15), and the second bevel gear (15) is fixedly connected with the rotary drum (6).

3. A rock formation sample sampling device for geological exploration of mines according to claim 1, characterized in that said cleaning means comprise a cleaning cylinder (16), and that the cleaning cylinder (16) is in rotary connection with the body (1).

4. The rock stratum sample sampling device for mine geological exploration according to claim 1, wherein one end of the first screw rod (3) is fixedly connected with a rotating rod, and one end of the rotating rod is fixedly connected with a third belt wheel (18).

5. A rock stratum sample sampling device for geological exploration of mines according to claim 3, characterized in that a fourth belt wheel (17) is fixedly connected to the cleaning cylinder (16), and the fourth belt wheel (17) and the third belt wheel (18) are in transmission connection with the same second belt (19).

6. The rock stratum sample sampling device for mine geological exploration according to claim 1, wherein an electric push rod (20) is fixedly arranged inside the rotary drum (6), a pressing plate (21) is fixedly connected to an output shaft of the electric push rod (20), and the pressing plate (21) is in sliding connection with the rotary drum (6).

7. The rock stratum sample sampling device for mine geological exploration according to claim 1, wherein the fixing mechanism comprises a first reciprocating screw rod (22) and a second reciprocating screw rod (23), the first reciprocating screw rod (22) and the second reciprocating screw rod (23) are rotatably connected with the main body (1), a fifth belt wheel (24) and a sixth belt wheel (25) are fixedly connected to the first reciprocating screw rod (22) and the second reciprocating screw rod (23) respectively, and the sixth belt wheel (25) and the fifth belt wheel (24) are in transmission connection with the same third belt (26).

8. The rock stratum sample sampling device for mine geological exploration according to claim 7, wherein four clamping plates (27) are connected to the first reciprocating screw (22) and the second reciprocating screw (23) in a threaded mode, the eight clamping plates (27) are connected with the main body (1) in a sliding mode, a third motor (28) is fixedly arranged on the inner wall of the main body (1), and an output shaft of the third motor (28) is fixedly connected with the first reciprocating screw (22).