CN220690522U

CN220690522U - Geotechnical engineering sampler

Info

Publication number: CN220690522U
Application number: CN202322306184.1U
Authority: CN
Inventors: 冯玉川
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-08-26
Filing date: 2023-08-26
Publication date: 2024-03-29
Anticipated expiration: 2033-08-26

Abstract

The utility model discloses a geotechnical engineering sampler which comprises a transverse plate, wherein a second servo motor is fixedly arranged on the right side of the top of the transverse plate, a rotating plate is arranged at the output end of the second servo motor, a cylinder is fixedly connected to the top of the rotating plate, a first servo motor is fixedly arranged at the top of the cylinder, a threaded rod is arranged at the output end of the first servo motor, a lifting block is connected with the upper end thread of the outer surface of the threaded rod, and a lifting plate is arranged on the right side of the lifting block. According to the utility model, after the equipment is pushed to a sampling place by the push rod, the first servo motor is started to work by the external controller, the first servo motor drives the threaded rod to rotate, the threaded rod drives the lifting plate to move downwards by the lifting block, and the lifting plate drives the driving motor to move downwards, so that the purpose of high automation degree is achieved, and the problem that the working efficiency of people is reduced because the existing sampler does not have the function of high automation degree is solved.

Description

Geotechnical engineering sampler

Technical Field

The utility model relates to the technical field of geotechnical engineering sampling, in particular to a geotechnical engineering sampler.

Background

Geotechnical engineering solves the problems of rock mass and soil engineering, including foundation and foundation, side slope and underground engineering, and the like, and is used as a self research object, and geotechnical sampling in an outdoor environment is required to be carried back for research, so that sampling equipment is required to sample.

The utility model (publication number: 202020555204.2) is characterized by comprising a shell, wherein a driving control chamber is arranged at the top of the shell, a worm is arranged in the center of the driving control chamber, a connector is arranged at the bottom of the worm, a sampling tube is connected with the bottom of the connector in a fastening manner, a fixing device is connected with the periphery of the bottom of the shell in a rotating manner, a discharging hole is formed in the center of the top of the sampling tube, and a discharging plate is arranged at the top of the inner wall of the sampling tube. The inventor has discovered that the prior art has the following problems in the process of implementing the utility model: the existing sampler does not have the function of high automation degree, so that the working efficiency of people is reduced, and therefore, the geotechnical engineering sampler is provided.

Disclosure of Invention

The sampler according to the present utility model for solving the above-described problems is characterized by comprising: the advantage that degree of automation is high has solved current sampler and has not had the function that degree of automation is high, leads to having reduced people work efficiency's problem.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a geotechnical engineering sampler, includes the diaphragm, the right side fixed mounting at diaphragm top has the second servo motor, the output of second servo motor is provided with the commentaries on classics board, the top fixedly connected with cylinder of commentaries on classics board, the top fixed mounting of cylinder has first servo motor, the output of first servo motor is provided with the threaded rod, the upper end threaded connection of threaded rod surface has the lifter block, the right side of lifter block is provided with the lifter plate, the right side fixed mounting at lifter plate top has driving motor, driving motor's output is provided with vibration motor, vibration motor's bottom is provided with the connecting plate, the middle-end fixedly connected with drill bit of connecting plate bottom.

Preferably, the right side at the top of the lifting plate is fixedly connected with a protective shell, and the protective shell is positioned on the outer surface of the driving motor.

Preferably, the right side at the top of the transverse plate is fixedly connected with a shell, and the shell is positioned on the outer surface of the second servo motor.

Preferably, the left side fixedly connected with receiver at diaphragm top, the left side fixedly connected with push rod at diaphragm top.

Preferably, the middle end of the bottom of the transverse plate is fixedly connected with a battery box, and the middle end of the front face of the battery box is provided with a charging hole.

Preferably, the four corners of diaphragm bottom all are provided with the gyro wheel, and the gyro wheel is the symmetry setting.

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

1. according to the utility model, through the arrangement of an automatic structure, the first servo motor drives the lifting block to move downwards through the threaded rod, the lifting block drives the driving motor to move downwards through the lifting plate, and the driving motor drives the drill bit to move downwards through the oscillating motor and rotate to perform sampling operation, so that the purpose of high automation degree is realized.

2. According to the utility model, through the arrangement of the power supply structure, the battery box is fully charged through the charging hole before the equipment is used, and the battery box supplies power to the whole equipment.

Drawings

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

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

fig. 3 is a schematic diagram of a driving motor according to the present utility model.

In the figure: 1. a cross plate; 2. a battery case; 3. a roller; 4. a storage box; 5. a push rod; 6. a rotating plate; 7. a column; 8. a first servo motor; 9. a lifting plate; 10. a protective shell; 11. a connecting plate; 12. a drill bit; 13. a housing; 14. a lifting block; 15. a threaded rod; 16. a second servo motor; 17. oscillating the motor; 18. and driving the motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, 2 and 3, the present utility model: the utility model provides a geotechnical engineering sampler, including diaphragm 1, the right side fixedly connected with casing 13 at diaphragm 1 top, and casing 13 is located the surface of second servo motor 16, the left side fixedly connected with receiver 4 at diaphragm 1 top, the left side fixedly connected with push rod 5 at diaphragm 1 top, the four corners at diaphragm 1 bottom all is provided with gyro wheel 3, and gyro wheel 3 is the symmetry setting, the right side fixedly mounted at diaphragm 1 top has second servo motor 16, the output of second servo motor 16 is provided with rotating plate 6, the top fixedly connected with cylinder 7 of rotating plate 6, the top fixedly mounted of cylinder 7 has first servo motor 8, the output of first servo motor 8 is provided with threaded rod 15, the upper end threaded connection of threaded rod 15 surface has lifting block 14, the right side of lifting block 14 is provided with lifter plate 9, the right side fixedly connected with shell 10 at lifter plate 9 top, and the four corners at lifter plate 10 is located the surface of driving motor 18, the right side fixedly mounted driving motor 18 at lifter plate 9 top, the output of driving motor 18 is provided with cylinder 17, the top fixedly connected with of cylinder 7, the top fixedly connected with first servo motor 8, the top of cylinder 8 has first servo motor 8, the top fixedly mounted with first servo motor 8 has the lifting block 14, the upper end of lifting block 14 has the lifting block 11, right end of lifting plate 9, the right end of connecting plate is provided with the connecting plate of the drill bit is fixedly connected with the protection plate 11.

Wherein: after pushing equipment to a sampling place through the push rod 5, the first servo motor 8 is started to work through the external controller, the first servo motor 8 drives the threaded rod 15 to rotate, the threaded rod 15 drives the lifting plate 9 to move downwards through the lifting block 14, the lifting plate 9 drives the driving motor 18 to move downwards, the driving motor 18 is started to work through the external controller, the driving motor 18 drives the connecting plate 11 to rotate through the oscillating motor 17, the connecting plate 11 drives the drill bit 12 to rotate to sample, the lifting block 14 is reset after sampling, the second servo motor 16 is started to work through the external controller, the second servo motor 16 drives the cylinder 7 to rotate through the rotating plate 6, the drill bit 12 is placed above the storage box 4, the oscillating motor 17 is started to work through the external controller, a sample of the drill bit 12 falls into an inner cavity of the storage box 4, and the purpose of high automation degree is achieved through the cooperation of the structure.

Referring to fig. 1, a geotechnical sampler is provided, wherein a battery box 2 is fixedly connected to a middle end of a bottom of a transverse plate 1, and a charging hole is formed in a front middle end of the battery box 2.

Wherein: before using the equipment, the battery box 2 is fully charged through the charging hole, and the battery box 2 supplies power to the whole equipment, so that the purpose of convenient power supply is achieved.

The working principle of the utility model is that; after people push the equipment to the sampling place through push rod 5, open first servo motor 8 work through external controller, first servo motor 8 drives threaded rod 15 rotation, threaded rod 15 drives lifter plate 9 downstream through lifter block 14, lifter plate 9 drives driving motor 18 downstream, open driving motor 18 work through external controller, driving motor 18 drives connecting plate 11 through concussion motor 17 and rotates, connecting plate 11 drives drill bit 12 and rotates and take a sample the operation, make lifter block 14 reset after the sample, open second servo motor 16 work through external controller, second servo motor 16 drives cylinder 7 through rotating plate 6 and rotates, make drill bit 12 arrange in the top of receiver 4, it is worked to open concussion motor 17 through external controller, make the sample of drill bit 12 drop into the inner chamber of receiver 4, through the cooperation of above structure, the purpose that degree of automation is high has been reached, the problem that current sampler does not possess degree of automation height has been solved, the reduction of people work efficiency is caused.

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. Geotechnical engineering sampler, including diaphragm (1), its characterized in that: the right side fixed mounting at diaphragm (1) top has second servo motor (16), the output of second servo motor (16) is provided with and changes board (6), the top fixedly connected with cylinder (7) of change board (6), the top fixed mounting of cylinder (7) has first servo motor (8), the output of first servo motor (8) is provided with threaded rod (15), the upper end threaded connection of threaded rod (15) surface has lifter block (14), the right side of lifter block (14) is provided with lifter plate (9), the right side fixed mounting at lifter plate (9) top has driving motor (18), the output of driving motor (18) is provided with vibration motor (17), the bottom of vibration motor (17) is provided with connecting plate (11), the middle-end fixedly connected with drill bit (12) of connecting plate (11) bottom.

2. The geotechnical engineering sampler according to claim 1, wherein: the right side at the top of the lifting plate (9) is fixedly connected with a protective shell (10), and the protective shell (10) is positioned on the outer surface of the driving motor (18).

3. The geotechnical engineering sampler according to claim 1, wherein: the right side at the top of the transverse plate (1) is fixedly connected with a shell (13), and the shell (13) is positioned on the outer surface of the second servo motor (16).

4. The geotechnical engineering sampler according to claim 1, wherein: the left side fixedly connected with receiver (4) at diaphragm (1) top, the left side fixedly connected with push rod (5) at diaphragm (1) top.

5. The geotechnical engineering sampler according to claim 1, wherein: the middle end of the bottom of the transverse plate (1) is fixedly connected with a battery box (2), and a charging hole is formed in the middle end of the front face of the battery box (2).

6. The geotechnical engineering sampler according to claim 1, wherein: the four corners of the bottom of the transverse plate (1) are provided with rollers (3), and the rollers (3) are symmetrically arranged.