CN215985260U

CN215985260U - Sampling device for geological survey soil

Info

Publication number: CN215985260U
Application number: CN202121780719.3U
Authority: CN
Inventors: 耿中华; 庞振明; 张建超
Original assignee: Shandong Minrui Environmental Protection Engineering Co ltd
Current assignee: Shandong Minrui Environmental Protection Engineering Co ltd
Priority date: 2021-08-02
Filing date: 2021-08-02
Publication date: 2022-03-08
Anticipated expiration: 2031-08-02

Abstract

The utility model discloses a sampling device for surveying soil of geological survey, comprising: the main part can take a sample soil, the main part side is connected with the support frame, and the support frame can carry out height-adjusting to the main part, support frame bottom fixedly connected with base, and the base can support the device, and the sliding tray is seted up the side of support frame, the operation groove has been seted up to the inside of support frame. This sampling device for geological survey soil, sliding block can slide through the sliding tray during screw thread slides, the sliding block can drive the main part when sliding and remove, make things convenient for the main part to carry out the autodrill under the condition that does not need artifical support, the block can reset through spring self elasticity, the block can extrude fixedly to the second connecting block after resetting, make things convenient for the main part to carry out quick installation, the horizontal angle that can adjust the main part after the base props up, make things convenient for the main part can adjust the horizontal angle of self as required when outdoor use.

Description

Sampling device for geological survey soil

Technical Field

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

Background

The geological engineering field is a pilot engineering field serving national economic construction by taking natural science and geoscience as theoretical bases, taking engineering problems related to geological survey, general survey and exploration of mineral resources, and geological structure and geological background of major engineering as main objects, taking geology, geophysical and geochemical technologies, mathematical geological methods, remote sensing technologies, testing technologies, computer technologies and the like as means, and the existing auxiliary blood sampling equipment has certain defects when in use, such as the defects;

according to the sampling device for the soil for geological survey disclosed by the publication number CN213336848U, the sampling tube is arranged into a two-half splicing structure, the soil after sampling can be conveniently taken out, the bottom of the sampling tube can be spliced and fixed through the retaining ring in the sampling process, meanwhile, the second bearing can prevent the sampling tube from being driven by the drilling tube in the drilling process, the integrity of soil in the sampling tube is ensured, the top end of the sampling tube can be fixed through the connecting cover, the sampling tube is fixedly connected with the transmission bin, the sampling tube is prevented from moving upwards in the sampling process, and the orderly sampling is ensured;

this prior art solution also presents the following problems when in use:

1. do not have automatic drilling;

2. the main body is inconvenient to install;

3. it is inconvenient to maintain the balance of the main body;

improvements are needed to address the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides the following technical scheme: the utility model aims to provide a sampling device for geological survey soil, which solves the problems that the sampling device for geological survey soil in the market at present has many defects, does not have automatic drilling, is inconvenient to install a main body and is inconvenient to keep the balance of the main body.

In order to achieve the purpose, the utility model provides the following technical scheme: a sampling device for geophysical surveying soil comprising:

the soil sampler comprises a main body, a support frame and a base, wherein the soil can be sampled, the side surface of the main body is connected with the support frame, the support frame can adjust the height of the main body, the bottom of the support frame is fixedly connected with the base, and the base can support the device;

the sliding groove is formed in the side face of the supporting frame, an operation groove is formed in the supporting frame, a first threaded rod penetrates and is connected between the operation groove and the sliding groove, and a motor is installed in the operation groove;

first pivot is connected the output of motor is close to the operation groove first threaded rod side is connected with the second pivot, be connected with the belt between second pivot and the first pivot, be close to the sliding tray the side of first threaded rod is connected with the sliding block.

Preferably, be sliding connection between sliding tray and the sliding block, and be threaded connection between sliding block and the first threaded rod, and first threaded rod and second pivot structure as an organic whole, second pivot and belt, constitute link gear between the first pivot, constitute revolution mechanic between first pivot and the motor, the motor during operation can drive first pivot and rotate, can drive the belt when first pivot rotates and rotate, can drive the second pivot when the belt rotates and rotate, can drive first threaded rod when the second pivot rotates and rotate, can drive the sliding block when first threaded rod rotates and carry out the screw thread slip, can slide through the sliding tray when sliding block screw thread slip.

Preferably, the sliding block is further provided with a first connecting block, a fixing rod, an extrusion groove, a clamping block and a spring;

the first connecting block is connected to the side face of the sliding block, and a fixing rod is fixedly connected to the side face of the first connecting block;

the clamping block can slide through the extrusion groove when being extruded, the clamping block can be extruded to the spring when sliding, the second connecting block can drive the fixed groove to slide to the bottom of the fixed rod when the clamping block is extruded to the inside of the extrusion groove, meanwhile, the fixed groove can slide out of the position of the clamping block, the clamping block can reset through the self elasticity of the spring, and the second connecting block can be extruded and fixed after the clamping block resets.

Preferably, the fixed slot has been seted up to main part both sides fixedly connected with second connecting block, is close to the dead lever the second connecting block side, and be sliding connection between fixed slot and the dead lever, the pulling main part can drive the second connecting block and dock with first connecting block, can drive the fixed slot and carry out the butt joint with the dead lever and slide when the second connecting block docks with first connecting block, can extrude the inclined plane of joint piece when the fixed slot slides.

Preferably, the base is further provided with a collection groove, a rotating block, a supporting plate, a connecting groove, a second threaded rod, a bearing and a supporting block;

the collecting groove is formed in the side face of the base, a rotating groove is formed in the collecting groove, a rotating block is connected in the rotating groove, four groups of the rotating groove and the rotating block are symmetrically arranged around the center of the base, a rotating structure is formed between the rotating groove and the rotating block, the supporting plate is pulled to drive the rotating block to rotate, and the rotating block can rotate with the rotating groove when rotating;

the supporting plate is fixedly connected to the side face of the rotating block, and a connecting groove is formed in the bottom of the supporting plate;

the second threaded rod is in penetrating connection with the inside of the connecting groove, the end of the second threaded rod is connected with a bearing, and the side face of the bearing is connected with a supporting block.

Preferably, be threaded connection between second threaded rod and the spread groove, and constitute revolution mechanic through the bearing between second threaded rod and the supporting shoe, and be sliding connection between supporting shoe and the spread groove, can rotate the second threaded rod according to the real-time horizontal situation and carry out the screw thread slip when the backup pad rotates 90, can drive the bearing during the screw thread slip and carry out rotary motion, can promote the supporting shoe when the bearing removes and remove, can slide through the spread groove when the supporting shoe removes, the supporting shoe can prop the base when the supporting shoe roll-off spread groove, can adjust the horizontal angle of main part after the base props up.

Compared with the prior art, the utility model has the beneficial effects that: this sampling device for geological survey soil, sliding block can slide through the sliding tray during screw thread slides, the sliding block can drive the main part when sliding and remove, make things convenient for the main part to carry out the autodrill under the condition that does not need artifical support, the block can reset through spring self elasticity, the block can extrude fixedly to the second connecting block after resetting, make things convenient for the main part to carry out quick installation, the horizontal angle that can adjust the main part after the base props up, make things convenient for the main part can adjust the horizontal angle of self as required when outdoor use.

1. The automatic drilling machine is provided with a motor, wherein the motor can drive a first rotating shaft to rotate when working, the first rotating shaft can drive a belt to rotate when rotating, the belt can drive a second rotating shaft to rotate when rotating, a first threaded rod can be driven to rotate when rotating, a sliding block can be driven to perform threaded sliding when rotating, the sliding block can slide through a sliding groove when sliding in a threaded manner, the main body can be driven to move when sliding in the sliding block, and the main body can be conveniently subjected to automatic drilling without manual support;

2. the main body can be pulled to drive the second connecting block to be butted with the first connecting block, the second connecting block can drive the fixing groove to be butted with the fixing rod to slide when being butted with the first connecting block, the inclined plane of the clamping block can be extruded when the fixing groove slides, the clamping block can slide through the extrusion groove when being extruded, the spring can be extruded when the clamping block slides, the second connecting block can drive the fixing groove to slide to the bottom end of the fixing rod when the clamping block is extruded into the extrusion groove, meanwhile, the fixing groove can slide out of the position of the clamping block, the clamping block can reset through the self elasticity of the spring, the second connecting block can be extruded and fixed after the clamping block resets, and the main body can be conveniently and quickly installed;

3. the pulling backup pad can drive rotatory piece and rotate, rotatory piece can rotate with the swivelling chute when rotating, can rotate the second threaded rod according to the real-time horizontal situation when the backup pad rotates 90 and carry out the screw thread slip through the spread groove, can drive the bearing during second threaded rod screw thread slip and carry out rotary motion, can promote the supporting shoe to remove when the bearing removes, can slide through the spread groove when the supporting shoe removes, the supporting shoe can prop the base when the supporting shoe roll-off spread groove, can adjust the horizontal angle of main part after the base props up, make things convenient for the main part to adjust the horizontal angle of self as required when outdoor use.

Drawings

FIG. 1 is a schematic cross-sectional front view of the present invention;

FIG. 2 is a schematic top view of the cross-sectional structure of the present invention;

FIG. 3 is an enlarged view of part A of the present invention.

In the figure: 1. a main body; 2. a support frame; 3. a base; 4. a sliding groove; 5. an operation slot; 6. a first threaded rod; 7. a motor; 8. a first rotating shaft; 9. a second rotating shaft; 10. a belt; 11. a slider; 12. a first connection block; 13. fixing the rod; 14. extruding a groove; 15. a clamping block; 16. a spring; 17. a second connecting block; 18. fixing grooves; 19. a collection groove; 20. a rotating tank; 21. rotating the block; 22. a support plate; 23. connecting grooves; 24. a second threaded rod; 25. a bearing; 26. and (7) a supporting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a sampling device for geophysical surveying soil comprising:

the soil sampler comprises a main body 1, a support frame 2, a base 3 and a lifting device, wherein soil can be sampled, the support frame 2 is connected to the side surface of the main body 1, the height of the main body 1 can be adjusted by the support frame 2, and the base 3 is fixedly connected to the bottom of the support frame 2 and can support the device;

sliding tray 4, set up in the side of support frame 2, operation groove 5 has been seted up to the inside of support frame 2, through connection has first threaded rod 6 between operation groove 5 and the sliding

tray

4, 5 internally mounted in operation groove have motor 7, first pivot 8, connect the output at

motor

7, 6 sides of first threaded rod that are close to operation groove 5 are connected with second pivot 9, be connected with belt 10 between second pivot 9 and the first pivot 8, the side of first threaded rod 6 that is close to sliding tray 4 is connected with sliding block 11.

Sliding connection is between sliding tray 4 and the sliding block 11, and be threaded connection between sliding block 11 and the first threaded rod 6 to first threaded rod 6 and second pivot 9 structure as an organic whole, constitute the link gear between second pivot 9 and belt 10, the first pivot 8, constitute revolution mechanic between first pivot 8 and the motor 7.

It can be known to refer to fig. 1, motor 7 during operation can drive first pivot 8 and rotate, can drive belt 10 when first pivot 8 rotates and rotate, belt 10 can drive second pivot 9 when rotating and rotate, can drive first threaded rod 6 when second pivot 9 rotates and rotate, can drive sliding block 11 when first threaded rod 6 rotates and carry out the screw thread slip, can slide through sliding tray 4 when sliding block 11 screw thread slip, can drive main part 1 when sliding block 11 slides and remove.

The sliding block 11 is further provided with a first connecting block 12, a fixing rod 13, an extrusion groove 14, a clamping block 15 and a spring 16, the first connecting block 12 is connected to the side surface of the sliding block 11, the fixing rod 13 is fixedly connected to the side surface of the first connecting block 12, the extrusion groove 14 is formed in the side surface of the fixing rod 13, the clamping blocks 15 are connected to two sides of the extrusion groove 14, the spring 16 is connected between the clamping blocks 15, the clamping blocks 15 are in sliding connection with the clamping blocks 15, and the clamping blocks 15 form a telescopic structure through the spring 16.

The fixing device comprises a main body 1 and fixing rods 13, wherein the two sides of the main body 1 are fixedly connected with second connecting blocks 17, fixing grooves 18 are formed in the side faces, close to the second connecting blocks 17, of the fixing rods 13, and the fixing grooves 18 are connected with the fixing rods 13 in a sliding mode.

It can be known with reference to fig. 1 that, pulling main part 1 can drive second connecting block 17 and butt joint first connecting block 12, second connecting block 17 can drive fixed slot 18 and dead lever 13 when butt joint with first connecting block 12 and dock and slide, can extrude the inclined plane of block 15 when fixed slot 18 slides, block 15 can slide through extrusion groove 14 when receiving the extrusion, block 15 can extrude spring 16 when sliding, second connecting block 17 can drive fixed slot 18 and slide the low side of dead lever 13 when block 15 extrudes extrusion groove 14 inside, fixed slot 18 can roll off the position of block 15 simultaneously, block 15 can reset through spring 16 self elasticity, block 15 can extrude second connecting block 17 after resetting and fix.

The base 3 is further provided with a collection groove 19, a rotating groove 20, a rotating block 21, a supporting plate 22, a connecting groove 23, a second threaded rod 24, a bearing 25 and a supporting block 26, the collection groove 19 is formed in the side face of the base 3, the rotating groove 20 is formed in the collection groove 19, the rotating block 21 is connected to the rotating groove 20, four groups of the rotating grooves 20 and the rotating block 21 are symmetrically arranged about the center of the base 3, a rotating structure is formed between the rotating grooves 20 and the rotating block 21, the supporting plate 22 is fixedly connected to the side face of the rotating block 21, the connecting groove 23 is formed in the bottom of the supporting plate 22, the second threaded rod 24 is connected to the inside of the connecting groove 23 in a penetrating mode, the end portion of the second threaded rod 24 is connected with the bearing 25, and the side face of the bearing 25 is connected with the supporting block 26.

The second threaded rod 24 is in threaded connection with the connecting groove 23, the second threaded rod 24 and the supporting block 26 form a rotating structure through a bearing 25, and the supporting block 26 is in sliding connection with the connecting groove 23.

Referring to fig. 2 and 3, it can be known that the pulling support plate 22 can drive the rotating block 21 to rotate, the rotating block 21 can rotate with the rotating groove 20 when rotating, when the support plate 22 rotates to 90 degrees, the second threaded rod 24 can rotate according to the real-time horizontal condition and can perform threaded sliding through the connecting groove 23, when the second threaded rod 24 performs threaded sliding, the bearing 25 can be driven to perform rotating movement, when the bearing 25 moves, the support block 26 can be pushed to move, when the support block 26 moves, the support block 26 can slide through the connecting groove 23, when the support block 26 slides out of the connecting groove 23, the support block 26 can prop up the base 3, and after the base 3 props up, the horizontal angle of the main body 1 can be adjusted.

The working principle is as follows: when the sampling device for geological survey soil is used, firstly, the sampling device for geological survey soil needs to be simply known, when in use, the main body 1 can be pulled to drive the second connecting block 17 to be butted with the first connecting block 12, the second connecting block 17 can be butted with the first connecting block 12 to drive the fixing groove 18 to be butted and slide with the fixing rod 13, the inclined plane of the clamping block 15 can be extruded when the fixing groove 18 slides, the clamping block 15 can slide through the extrusion groove 14 when being extruded, the spring 16 can be extruded when the clamping block 15 slides, the second connecting block 17 can drive the fixing groove 18 to slide to the lower end of the fixing rod 13 when the clamping block 15 is extruded into the extrusion groove 14, meanwhile, the fixing groove 18 can slide out of the position of the clamping block 15, the clamping block 15 can reset through the self elasticity of the spring 16, and the second connecting block 17 can be extruded and fixed after the clamping block 15 resets, the installation of main part 1 can be used after accomplishing, 7 during operations of motor can drive first pivot 8 and rotate, can drive belt 10 when first pivot 8 rotates and rotate, belt 10 can drive second pivot 9 when rotating and rotate, second pivot 9 can drive first threaded rod 6 when rotating and rotate, first threaded rod 6 can drive sliding block 11 when rotating and carry out the screw thread slip, sliding block 11 can slide through sliding tray 4 when the screw thread slip, sliding block 11 can drive main part 1 when sliding, make main part 1 can carry out the autodrill under the condition that does not need artifical support, the content that does not do the detailed description in this description belongs to the known prior art of the professional skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims

1. A sampling device for investigating geological survey soil, comprising:

the soil sampler comprises a main body (1) capable of sampling soil, wherein a support frame (2) is connected to the side surface of the main body (1), the support frame (2) can adjust the height of the main body (1), a base (3) is fixedly connected to the bottom of the support frame (2), and the base (3) can support the soil sampler;

the sliding groove (4) is formed in the side face of the supporting frame (2), an operation groove (5) is formed in the supporting frame (2), a first threaded rod (6) penetrates and is connected between the operation groove (5) and the sliding groove (4), and a motor (7) is installed in the operation groove (5);

first pivot (8), connect and be in the output of motor (7) is close to operation groove (5) first threaded rod (6) side is connected with second pivot (9), be connected with belt (10) between second pivot (9) and first pivot (8), be close to sliding tray (4) the side of first threaded rod (6) is connected with sliding block (11).

2. A sampling device for geological survey soil according to claim 1, wherein: be sliding connection between sliding tray (4) and sliding block (11), and be threaded connection between sliding block (11) and first threaded rod (6) to first threaded rod (6) and second pivot (9) structure as an organic whole, constitute linkage between second pivot (9) and belt (10), first pivot (8), constitute revolution mechanic between first pivot (8) and motor (7).

3. A sampling device for geological survey soil according to claim 1, wherein: the sliding block (11) is also provided with a first connecting block (12), a fixing rod (13), an extrusion groove (14), a clamping block (15) and a spring (16);

the first connecting block (12) is connected to the side face of the sliding block (11), and a fixing rod (13) is fixedly connected to the side face of the first connecting block (12);

the clamping device comprises a fixed rod (13), and is characterized in that extrusion grooves (14) are formed in the side faces of the fixed rod (13), clamping blocks (15) are connected to two sides of each extrusion groove (14), springs (16) are connected between the clamping blocks (15), the clamping blocks (15) are in sliding connection with the clamping blocks (15), and the clamping blocks (15) form a telescopic structure through the springs (16).

4. A sampling device for geological survey soil according to claim 1, wherein: the fixing rod fixing device is characterized in that second connecting blocks (17) are fixedly connected to the two sides of the main body (1), fixing grooves (18) are formed in the side faces of the second connecting blocks (17) close to the fixing rods (13), and the fixing grooves (18) are in sliding connection with the fixing rods (13).

5. A sampling device for geological survey soil according to claim 1, wherein: the base (3) is also provided with a collection groove (19), a rotating groove (20), a rotating block (21), a supporting plate (22), a connecting groove (23), a second threaded rod (24), a bearing (25) and a supporting block (26);

the collecting groove (19) is formed in the side face of the base (3), a rotating groove (20) is formed in the collecting groove (19), a rotating block (21) is connected to the inside of the rotating groove (20), four groups of the rotating grooves (20) and the rotating block (21) are symmetrically arranged around the center of the base (3), and a rotating structure is formed between the rotating grooves (20) and the rotating block (21);

the supporting plate (22) is fixedly connected to the side face of the rotating block (21), and a connecting groove (23) is formed in the bottom of the supporting plate (22);

the second threaded rod (24) is connected to the inside of the connecting groove (23) in a penetrating mode, a bearing (25) is connected to the end portion of the second threaded rod (24), and a supporting block (26) is connected to the side face of the bearing (25).

6. A sampling device for geological survey soil according to claim 5, characterized in that: the second threaded rod (24) is in threaded connection with the connecting groove (23), the second threaded rod (24) and the supporting block (26) form a rotating structure through a bearing (25), and the supporting block (26) is in sliding connection with the connecting groove (23).