CN218916866U - Measuring and sampling device - Google Patents
Measuring and sampling device Download PDFInfo
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- CN218916866U CN218916866U CN202222355861.4U CN202222355861U CN218916866U CN 218916866 U CN218916866 U CN 218916866U CN 202222355861 U CN202222355861 U CN 202222355861U CN 218916866 U CN218916866 U CN 218916866U
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- underframe
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- sampling
- connecting frame
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Abstract
A measuring and sampling device relates to the technical field of sampling, and comprises a bottom frame, a guide post, a top beam, an electric cylinder, a connecting frame, a supporting tube, a motor, a transmission structure, a shaft lever, a sampling cutter and a supporting column; the roller is installed on the underframe, four corners of the underframe are all in threaded connection with support columns, two guide columns are arranged and installed at the top ends of the underframe, and the top beam is installed at the top ends of the two guide columns. This measurement sampling device passes through motor drive axostylus axostyle and drives the rotation of sampling cutter to under the promotion of electronic jar, make sampling cutter and ground contact, and constantly promote sampling cutter and move down, accomplish and bore the process of getting, and adjust the support column and can make the underframe receive the support, avoid the gyro wheel to drive the underframe and remove, thereby stabilize the position of underframe, conveniently bore and get.
Description
Technical Field
The utility model relates to the technical field of sampling, in particular to a measuring and sampling device.
Background
After the highway is paved, the quality of the highway is required to be measured and detected, and a worker drills a sample core with a certain length on the highway by using an electric drill barrel, and then measures and analyzes the sample core by using a tool. However, in the current sampling device, the ground is drilled and sampled through the drilling machine, but the drilling machine is heavy, so that the drilling machine is laborious and labor-consuming in use, and the machine body can shake in the drilling process, so that the machine body is unstable, the arm is easy to shake and hurt, and aiming at the problem, the measuring and sampling device is provided.
Disclosure of Invention
In order to overcome the defects in the prior art, the utility model provides a measuring and sampling device.
A measuring and sampling device comprises a bottom frame, a guide post, a top beam, an electric cylinder, a connecting frame, a supporting tube, a motor, a transmission structure, a shaft lever, a sampling cutter and a supporting column;
the roller wheels are arranged on the bottom frame, the four corners of the bottom frame are respectively connected with a support column in a threaded manner, two guide columns are arranged at the top ends of the bottom frame, the top beams are arranged at the top ends of the two guide columns, the two ends of the connecting frame are in sliding connection with the two guide columns, the electric cylinder is arranged on the top beams, and the moving end of the electric cylinder is connected with the top ends of the connecting frame; the motor is installed on one side of the connecting frame in an inverted mode, the supporting tube is installed on the other side of the connecting frame through a bracket, and the shaft rod is installed in the supporting tube through a bearing; the transmission structure is installed to the bottom of link, and the output shaft of motor passes through transmission structure and axostylus axostyle transmission to be connected, and the bottom at the axostylus axostyle is installed to the sampling cutter.
Preferably, the support column is a threaded column and the bottom end is provided with a base.
Preferably, a storage battery is arranged on the bottom frame and is respectively connected with the electric cylinder and the motor through leads.
Preferably, the transmission structure comprises a shell, a transmission wheel and a belt, wherein the shell is arranged at the bottom end of the connecting frame, the output shaft of the motor and the bottom end of the shaft lever are both extended into the shell and connected with the transmission wheel, and the two transmission wheels are in transmission connection through the belt.
Preferably, the sampling cutter is tubular.
Compared with the prior art, the utility model has the following beneficial effects:
this measurement sampling device drives the sample cutter through the motor drive axostylus axostyle and rotates to under the promotion of electronic jar, make sample cutter and ground contact, and constantly promote sample cutter and move down, accomplish and bore the process of getting, and adjust the support column and can make the underframe receive the support, avoid the gyro wheel to drive the underframe and remove, thereby stabilize the position of underframe, conveniently bore and get, the gyro wheel can drive the device and remove in addition, convenient transportation.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a schematic side view of the structure of FIG. 1;
fig. 3 is a schematic diagram of a transmission structure of the present utility model.
In the figure: 1-a bottom frame; 2-a guide post; 3-top beam; 4-an electric cylinder; 5-connecting frames; 6-supporting the tube; 7-a motor; 8-a transmission structure; 81-a housing; 82-a driving wheel; 83-a belt; 9-a shaft lever; 10-a sampling cutter; 11-support columns.
Description of the embodiments
Referring to fig. 1, 2 and 3, a measuring and sampling device includes a bottom frame 1, a guide post 2, a top beam 3, an electric cylinder 4, a connecting frame 5, a support tube 6, a motor 7, a transmission structure 8, a shaft lever 9, a sampling cutter 10 and a support column 11;
the roller is installed on the underframe 1, four corners of the underframe 1 are all in threaded connection with support columns 11, the support columns 11 are threaded columns, bases are installed at the bottom ends of the support columns, two guide columns 2 are arranged at the top ends of the underframe 1 and installed on the top ends of the two guide columns 2, the top beam 3 is installed on the top ends of the two guide columns 2, two ends of the connecting frame 5 are in sliding connection with the two guide columns 2, the electric cylinder 4 is installed on the top beam 3, the movable end of the electric cylinder 4 is connected with the top ends of the connecting frame 5, the support columns 11 are rotated, the four support columns 11 are made to be in contact with the ground, the underframe 1 is stabilized, and the underframe 1 is prevented from moving through the roller under shaking.
The motor 7 is installed in the one side of link 5 in an inverted mode, the stay tube 6 passes through the opposite side of link 5 through the support mounting, the axostylus axostyle 9 passes through the inside of bearing installation at the stay tube 6, transmission structure 8 is installed to the bottom of link 5, the output shaft of motor 7 passes through transmission structure 8 and axostylus axostyle 9 transmission to be connected, sampling cutter 10 installs in the bottom of axostylus axostyle 9, sampling cutter 10 is tubular, the output shaft of motor 7 passes through transmission structure 8 and drives axostylus axostyle 9 rotation to make sampling cutter 10 rotatory take a sample to ground.
The bottom frame 1 is provided with a storage battery, the storage battery is respectively connected with the electric cylinder 4 and the motor 7 through wires, and the storage battery is used for supplying energy to the electric cylinder 4 and the motor 7.
The transmission structure 8 comprises a shell 81, a transmission wheel 82 and a belt 83, wherein the shell 81 is arranged at the bottom end of the connecting frame 5, an output shaft of the motor 7 and the bottom end of the shaft lever 9 are both extended to the inside of the shell 81 and connected with the transmission wheel 82, the two transmission wheels 82 are in transmission connection through the belt 83, and the transmission wheel 82 and the belt 83 are driven to drive the output shaft of the motor 7 to drive the shaft lever 9 to rotate, so that the sampling cutter 10 at the bottom end of the shaft lever 9 rotates.
Claims (5)
1. A measurement sampling device, characterized in that: the device comprises a bottom frame (1), a guide post (2), a top beam (3), an electric cylinder (4), a connecting frame (5), a supporting tube (6), a motor (7), a transmission structure (8), a shaft lever (9), a sampling cutter (10) and a supporting column (11);
the electric lifting device is characterized in that rollers are mounted on the bottom frame (1), support columns (11) are connected to four corners of the bottom frame (1) in a threaded mode, two guide columns (2) are arranged at the top ends of the bottom frame (1), top beams (3) are mounted at the top ends of the two guide columns (2), two ends of a connecting frame (5) are connected with the two guide columns (2) in a sliding mode, an electric cylinder (4) is mounted on the top beams (3), and the moving end of the electric cylinder (4) is connected with the top ends of the connecting frame (5); the motor (7) is reversely arranged at one side of the connecting frame (5), the supporting tube (6) is arranged at the other side of the connecting frame (5) through a bracket, and the shaft lever (9) is arranged in the supporting tube (6) through a bearing; the bottom of link (5) is installed transmission structure (8), and the output shaft of motor (7) passes through transmission structure (8) and is connected with axostylus axostyle (9) transmission, and sampling cutter (10) are installed in the bottom of axostylus axostyle (9).
2. A measurement sampling apparatus according to claim 1 wherein: the support column (11) is a threaded column, and the bottom end of the support column is provided with a base.
3. A measurement sampling apparatus according to claim 1 wherein: the storage battery is arranged on the bottom frame (1) and is respectively connected with the electric cylinder (4) and the motor (7) through leads.
4. A measurement sampling apparatus according to claim 1 wherein: the transmission structure (8) comprises a shell (81), a transmission wheel (82) and a belt (83), wherein the shell (81) is arranged at the bottom end of the connecting frame (5), the output shaft of the motor (7) and the bottom end of the shaft lever (9) extend to the inside of the shell (81) and are connected with the transmission wheel (82), and the two transmission wheels (82) are connected through the belt (83) in a transmission way.
5. A measurement sampling apparatus according to claim 1 wherein: the sampling cutter (10) is tubular.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202222355861.4U CN218916866U (en) | 2022-09-06 | 2022-09-06 | Measuring and sampling device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202222355861.4U CN218916866U (en) | 2022-09-06 | 2022-09-06 | Measuring and sampling device |
Publications (1)
Publication Number | Publication Date |
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CN218916866U true CN218916866U (en) | 2023-04-25 |
Family
ID=86014411
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202222355861.4U Active CN218916866U (en) | 2022-09-06 | 2022-09-06 | Measuring and sampling device |
Country Status (1)
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CN (1) | CN218916866U (en) |
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2022
- 2022-09-06 CN CN202222355861.4U patent/CN218916866U/en active Active
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