CN219714821U

CN219714821U - Sampling device for geological survey

Info

Publication number: CN219714821U
Application number: CN202321111327.7U
Authority: CN
Inventors: 刘娟; 段江飞; 关民全
Original assignee: Hydrogeology Geological Engineering Geological Environment Geology Exploration Institute Of China Coal Geology Bureau
Current assignee: Hydrogeology Geological Engineering Geological Environment Geology Exploration Institute Of China Coal Geology Bureau
Priority date: 2023-05-10
Filing date: 2023-05-10
Publication date: 2023-09-19
Anticipated expiration: 2033-05-10

Abstract

The utility model relates to the technical field of geological investigation, and discloses a sampling device for geological investigation, which comprises a base and is characterized in that: the two sides of the outer surface of the base are fixedly connected with baffle plates, the periphery of the upper surface of the base is fixedly connected with electric telescopic rods, the telescopic ends of the four electric telescopic rods are fixedly connected with supporting plates, the sampling device for geological investigation drives the electric telescopic rods to extend and retract through the electric structure of geological investigation personnel to drive the supporting plates to move towards the ground, so that the drill bit is closer to the ground, meanwhile, the motor inside the fixed block drives the first turbine tooth to rotate in the bushing, drives the second turbine tooth meshed with the first turbine tooth to move up and down, controls the motor to control the drill bit to rotate again, and carries out deep sampling on geology by detecting and sampling personnel to record deep lines on the deep outer rod, so that multiple sampling work on samples with different depths is achieved.

Description

Sampling device for geological survey

Technical Field

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

Background

Geological investigation generally refers to all investigation works taking geological phenomena (rock, stratum, structure, mineral products, hydrogeology, topography and the like) as targets, taking geology and related science as guidance and taking observation and research as bases, in the process of carrying out geological investigation, in order to cooperate with the geological investigation and research work, sampling and detection work needs to be carried out on the soil of a relevant area, and in general, the soil of different geology is different in element composition and soil texture, so that the geological judgment and confirmation work can be carried out from the aspects, and in the process of carrying out such work, the sampling work is important.

The existing geological survey sampling device can only take samples of one place at one time, needs multiple sampling work for samples of different depths, needs corresponding sampling work in different horizontal dimensions and vertical dimensions, and can also cause soil mixing phenomenon, so that the judgment of actual soil layer geology is affected, and when sampling in different horizontal dimensions is needed, multiple drilling work needs to be carried out, the waste time of comparison is saved, and the whole sampling efficiency is very low.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a sampling device for geological investigation, which solves the problems that the prior geological investigation sampling device in the background art can only take samples of one place at a time, samples of different depths need to be sampled for multiple times, corresponding sampling work needs to be carried out on the samples of different horizontal dimensions and vertical dimensions, soil mixing phenomenon can occur, the judgment of the geology of an actual soil layer is influenced, and when sampling of different horizontal dimensions is needed, multiple drilling work needs to be carried out, the waste time of comparison is long, and the whole sampling efficiency is very low.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a sampling device for geological survey, includes two bases, two base surface both sides fixedly connected with two baffles, two the last fixed surface of base is connected with four electric telescopic handle, four electric telescopic handle's flexible end fixedly connected with backup pad, the last fixed surface of backup pad is connected with two fixed blocks, two the inside fixedly connected with motor of fixed block, two the equal fixedly connected with of output of motor turbine teeth, two the equal fixedly connected with bush of surface of turbine teeth, two the equal meshing of surface of turbine teeth is connected with turbine teeth No. two the equal fixedly connected with outer pole of surface of turbine teeth No. two a plurality of degree of depth lines have all been seted up to the external surface fixation of outer pole, two the equal fixedly mounted sampling structure of lower extreme of outer pole, two the equal fixedly connected with drill bit of surface of sampling structure, two the equal fixedly mounted control motor of upper surface of outer pole.

By adopting the technical scheme, the base is moved to the position for geological sampling by geological survey staff, the electric structure drives the electric telescopic rod to extend and retract, the supporting plate is driven to move towards the ground, the drill bit is enabled to be closer to the ground, sampling is convenient, meanwhile, the motor inside the fixing block drives the first turbine tooth to rotate in the bushing, the second turbine tooth meshed with the first turbine tooth is driven to move up and down, the motor is controlled to control the drill bit to rotate, geological deep sampling is carried out, deep lines on deep outer rods are recorded by geological detection sampling staff, meanwhile, the motor is controlled to drive the sampling ports to move up and down, the samples are driven to fall into the storage tank, different sampling ports are controlled to sample to different depths due to the fact that a plurality of sampling ports are arranged, and meanwhile, the two fixing blocks are fixedly connected to the upper surface of the supporting plate, synchronous sampling is carried out on the two outer rods, sampling is carried out rapidly, and multiple sampling work is carried out on samples of different depths.

Preferably, two the lower surface of base is all fixed and is seted up flutedly, two the inside of recess is equal fixed mounting has flexible motor, two the equal fixed mounting of flexible end of flexible motor has flexible piece, two the equal fixed mounting of flexible end of flexible piece has connection structure, two connection structure's surface is all rotated and is connected with the wheel.

By adopting the technical scheme, through the fixed mounting in the recess of seting up at the lower surface of base has flexible motor, when needs remove overall structure, the flexible motor of geological survey sampling personnel operation control stretches out and draws back, drives flexible piece and stretches out and draws back, reaches the effect that connection structure drove wheel and ground to reach the effect of being convenient for remove and protecting the wheel when not using simultaneously.

Preferably, the inside fixed mounting of connection structure has the rotation motor, the inside fixed mounting of rotation motor has the axis of rotation, the both ends rotation of axis of rotation are connected with a plurality of wheel, the surface rotation of wheel is connected with the track.

By adopting the technical scheme, the inside fixed mounting through connection structure has the rotation motor, and the inside fixed mounting of rotation motor has the axis of rotation, and the both ends rotation of axis of rotation is connected with a plurality of wheel, and the surface rotation of wheel is connected with the track, reaches the effect that removes to overall structure.

Preferably, the square opening has been seted up to the surface of outer pole, the output of control motor and the inside fixed connection of sampling structure, a plurality of sampling mouth has been seted up to the surface of sampling structure, the inside fixed mounting of sampling mouth has the sample storage tank the surface of sampling mouth and the inside swing joint of outer pole, the output of control motor and the inside fixed connection of drill bit.

By adopting the technical scheme, the control motor is used for controlling the sampling port to correspond to the square port formed in the outer surface of the outer rod, sampling is carried out on geology, the control motor is used for staggering the square port in the outer surface of the outer rod after the sampling is finished, when the other depth is reached, the operation is repeated, the effect of sampling and collecting the samples in different depths is achieved.

Preferably, the outer surfaces of the fixed block and the supporting plate are provided with circular openings, and the outer surface of the outer rod and the outer surface of the second vortex wheel tooth are movably connected with the inside of the circular openings.

By adopting the technical scheme, the outer surface of the outer rod and the outer surface of the second vortex tooth are movably connected with the inside of the circular opening through the circular opening formed in the outer surface of the fixed block and the supporting plate, so that the second vortex tooth fixedly connected with the outer surface of the outer rod is meshed with the first turbine tooth driven by the motor inside the fixed block, and the effect of up-down operation is achieved.

Preferably, an electric structure is fixedly arranged in the electric telescopic rod, and the outer surface of the control motor is movably connected with the upper surface of the fixed block.

By adopting the technical scheme, the electric structure is fixedly arranged in the electric telescopic rod, the effect of up-and-down expansion of the electric telescopic rod is achieved, and meanwhile, the outer surface of the motor is controlled to be movably connected with the upper surface of the fixed block, so that the outer rod can conveniently move up and down.

Preferably, the output end of the control motor is fixedly connected with the top end of the drill bit through a slide bar, and the slide bar is rotationally connected with the outer rod and the inside of the sampling structure.

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

1. this sampling device for geological survey drives electric telescopic handle through geological survey personnel electric structure and stretches the withdrawal, drives the backup pad and removes towards ground, makes the drill bit more be close ground, conveniently takes a sample, and the inside motor of fixed block drives turbine tooth No. one and rotates in the bush simultaneously, drives and reciprocates with turbine tooth No. two that the meshing of tooth is connected, and the control motor again controls the drill bit and rotates, carries out deep sampling geological detection sampling personnel to the deep depth line on the outer pole of going deep record to the sample that has reached different degree of depth carries out multiple sampling work.

2. This sampling device for geological survey has flexible motor through the recess internal fixation who sets up at the lower surface of base, when needs remove overall structure, and the flexible motor of geological survey sampling personnel operation control stretches out and draws back, drives flexible piece to reach the effect that connection structure drove the wheel and contacted with ground, be convenient for remove the effect of protecting the wheel when not using simultaneously.

Drawings

FIG. 1 is a schematic perspective view of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional front view of the structure of the present utility model;

FIG. 3 is a right side view of the structure of the present utility model;

FIG. 4 is a schematic cross-sectional view of a base structure of the present utility model.

In the figure: 1. a base; 2. a baffle; 3. an electric telescopic rod; 4. a support plate; 5. a fixed block; 6. a motor; 7. a first turbine tooth; 8. a bushing; 9. an outer rod; 10. a second turbine tooth; 11. a depth line; 12. controlling a motor; 13. a drill bit; 14. a sampling structure; 15. a groove; 16. a telescopic motor; 17. a telescopic block; 18. a connection structure; 19. and (3) a wheel.

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.

Example 1:

referring to figures 1-4 in combination,

in the process of geological investigation, in order to cooperate with geological investigation research work, the soil quality of a relevant area needs to be sampled and detected, generally, the soil quality of different geology is different in element composition and soil texture, when the geological investigation is carried out, the sampling work is more important, a sampling device for geological investigation is needed, a geological investigation staff moves a base 1 to a position for geological sampling, an electric structure drives an electric telescopic rod 3 to extend and retract, a supporting plate 4 is driven to move towards the ground, a drill bit 13 is enabled to be closer to the ground, sampling is convenient, a motor 6 in a fixed block 5 drives a first turbine tooth 7 to rotate in a bushing 8, a second turbine tooth 10 meshed and connected with the first turbine tooth 7 is driven to move up and down, a motor 12 is controlled to control a drill bit 13 to rotate, deep sampling is carried out on geology, deep depth lines 11 on the deep outer rod 9 are recorded through geology detection sampling personnel, meanwhile, a control motor 12 drives a sampling port to move up and down, the control motor 12 controls the sampling port to correspond to a square port formed on the outer surface of the outer rod 9, sampling is carried out on geology, after sampling is finished, the control motor 12 staggers the square port on the outer surface of the outer rod 9, when reaching another depth, repeated operation is carried out, once sampling is achieved, the driving sample falls into a storage tank, the sampling ports with different depths are controlled to sample to achieve the effect of sampling with different depths due to the plurality of sampling ports, meanwhile, the upper surface of a supporting plate 4 is fixedly connected with two fixing blocks 5, the two outer rods 9 are synchronously sampled, geology at different positions is sampled, the arrangement of the baffle plate 2 can perform certain shielding effect on splashed dust when the drill bit 13 operates.

Working principle: in the in-process of carrying out the geological survey, in order to cooperate to carry out the geological survey research work, need to take a sample to the soil property in relevant area and detect the work, the soil property of general different geology is for showing different element composition and earth feel, when carrying out such work, it is comparatively important that the sample work, just need use a sampling device for geological survey, geological survey personnel remove base 1 to the position of carrying out the geological sampling, electric structure drives electric telescopic handle 3 and stretches back, drive backup pad 4 and remove towards ground, make drill bit 13 more be close to ground, the convenience is taken a sample, simultaneously the inside motor 6 of fixed block 5 drives turbine tooth 7 and rotates in bush 8, drive turbine tooth 7 and rotate with turbine tooth 7 again, take a sample deeply through the deep wire 11 on the outer pole 9 of geological survey sampling personnel to take a record, simultaneously control motor 12 drives the sample connection and carries out the upper and lower movement, drive sample falls into the storage tank, because there are a plurality of sample connection, carry out the different sample connection with two different sample connection holes to carry out the depth of the different sample connection 4, the utility model has the following two beneficial effects of two sample connection, the utility model is more than the fixed device is realized simultaneously, the utility model is high, the effect is realized simultaneously, the two is compared with the sample connection is realized, the sample connection is realized by the following: thereby achieving the purpose of sampling samples at different depths for multiple times.

Example 2:

referring to figures 1-4 in combination,

simultaneously, the telescopic motor 16 is fixedly installed in the groove 15 formed in the lower surface of the base 1, when the whole structure needs to be moved, geological investigation sampling personnel operate and control the telescopic motor 16 to stretch and retract, the telescopic block 17 is driven to stretch and retract, the connecting structure 18 is driven to be in contact with the ground with the crawler connected with the outer surface of the wheel 19 in a rotating mode, meanwhile, the sampling workers control the rotating motor 6 fixedly installed in the connecting structure 18 again, the rotating shaft fixedly installed in the rotating motor 6 is enabled to rotate, the wheels 19 connected with the two ends of the rotating shaft rotate, the crawler is connected with the outer surface of the wheels 19 in a rotating mode, the crawler is in contact with the ground to drive the whole structure to move, after the whole structure reaches a designated position, the telescopic motor 16 is controlled to retract, the telescopic block 17 is driven to retract, the crawler connected with the outer surface of the wheel 19 in a rotating mode is driven to be away from the ground until the crawler connected with the outer surface of the connecting structure 18 is retracted in the groove 15 formed in the lower surface of the base 1, and the pressure on the wheel 19 is reduced for subsequent use.

Working principle: simultaneously, the telescopic motor 16 is fixedly installed in the groove 15 formed in the lower surface of the base 1, when the whole structure needs to be moved, geological investigation sampling personnel operate and control the telescopic motor 16 to stretch and retract, the telescopic block 17 is driven to stretch and retract, the connecting structure 18 is driven to be in contact with the ground with the crawler belt rotationally connected with the outer surface of the wheel 19, meanwhile, the sampling workers control the rotating motor 6 fixedly installed in the connecting structure 18 again, the rotating shaft fixedly installed in the rotating motor 6 is enabled to rotate, the rotation of the plurality of wheels 19 rotationally connected with the two ends of the rotating shaft is achieved, the crawler belt is rotationally connected with the outer surface of the wheels 19, the crawler belt is contacted with the ground, and the effect of moving the whole structure is driven. Thereby achieving the effect that the connecting structure 18 drives the wheels 19 to contact with the ground, and being convenient for move and protecting the wheels 19 when not in use.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Sampling device for geological survey, including two bases (1), its characterized in that: two base (1) surface both sides fixedly connected with two baffle (2), two the last fixed surface of base (1) is connected with four electric telescopic handle (3), four the flexible end fixedly connected with backup pad (4) of electric telescopic handle (3), the last fixed surface of backup pad (4) is connected with two fixed blocks (5), two the inside fixed connection of fixed block (5) has motor (6), two the equal fixedly connected with turbine tooth (7) of output of motor (6), two the equal fixedly connected with bush (8) of the surface of turbine tooth (7), two the equal meshing of the surface of turbine tooth (7) is connected with turbine tooth (10) No. two the equal fixedly connected with outer pole (9) of surface of turbine tooth (10), two the fixed surface of outer pole (9) has all offered a plurality of degree of depth lines (11), two the equal fixedly mounted in lower extreme of outer pole (9) has sample structure (14), two the equal fixedly connected with drill bit (12) of the equal fixedly connected with of surface of outer surface of two turbine tooth (7).

2. A sampling device for geological investigation according to claim 1, wherein: the lower surface of base (1) is all fixed seting up recess (15), two the inside of recess (15) is equal fixed mounting has flexible motor (16), two the equal fixed mounting of flexible end of flexible motor (16) has flexible piece (17), two the equal fixed mounting of flexible end of flexible piece (17) has connection structure (18), two the surface of connection structure (18) is all rotated and is connected with wheel (19).

3. A sampling device for geological investigation according to claim 2, wherein: the inside fixed mounting of connection structure (18) has rotation motor (6), the inside fixed mounting of rotation motor (6) has the axis of rotation, the both ends rotation of axis of rotation are connected with a plurality of wheel (19), the surface rotation of wheel (19) is connected with the track.

4. A sampling device for geological investigation according to claim 1, wherein: square openings are formed in the outer surface of the outer rod (9), the output end of the control motor (12) is fixedly connected with the inside of the sampling structure (14), a plurality of sampling openings are formed in the outer surface of the sampling structure (14), sample storage grooves are fixedly mounted in the sampling openings, the outer surface of the sampling openings is movably connected with the inside of the outer rod (9), and the output end of the control motor (12) is fixedly connected with the inside of the drill bit (13).

5. A sampling device for geological investigation according to claim 1, wherein: the outer surfaces of the fixed block (5) and the supporting plate (4) are provided with circular openings, and the outer surface of the outer rod (9) and the outer surface of the second vortex wheel tooth (10) are movably connected with the inside of the circular openings.

6. A sampling device for geological investigation according to claim 1, wherein: an electric structure is fixedly arranged in the electric telescopic rod (3), and the outer surface of the control motor (12) is movably connected with the upper surface of the fixed block (5).

7. A sampling device for geological investigation according to claim 1, wherein: the output end of the control motor (12) is fixedly connected with the top end of the drill bit (13) through a slide bar, and the slide bar is rotationally connected with the inner part of the outer rod (9) and the sampling structure (14).