CN215492563U - Deep geotome is used in environmental monitoring - Google Patents

Abstract

The utility model discloses a deep soil sampler for environmental monitoring, which comprises a soil sampler main body and a gear lifting frame, wherein a gear transmission box is arranged above the soil sampler main body, the gear lifting frame is connected with a gear layer through a gear shaft in a transmission manner and is arranged inside the gear transmission box, the gear shaft is connected with the gear transmission box through a motor, and a positioning sleeve is arranged below the soil sampler main body. The utility model discloses a soil sampler adopts the gear drive principle, the gear crane passes through the gear shaft with gear box and is connected with the gear layer transmission, and the gear shaft passes through the motor with gear box and is connected, it is rotatory to drive the gear shaft through the motor, can make the gear crane rise fast or reduce the adjustment, relatively save physical power, also improve sampling efficiency simultaneously, can make the soil sampling conical head adjust more stably from top to bottom through the gear drive principle, stronger brill power has, it is more laborsaving to take the soil of deep layer.

Description

Deep geotome is used in environmental monitoring

Technical Field

The utility model relates to the field related to environmental monitoring, in particular to a deep soil sampler for environmental monitoring.

Background

The main content of environment monitoring is to receive tasks, on-site survey and collect data, collect, transport and store samples on site, and the soil environment monitoring is mainly to use a soil sampler to sample soil, and the soil sampler is used to lift undisturbed soil of lower layer experiment soil as a sample to know the property of the soil.

In the prior art, when the deep soil sampler for environmental monitoring is used, the deeper soil is harder, the harder the soil is, the greater the operation difficulty is, and the deep soil is not convenient to sample.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a deep soil sampler for environmental monitoring, which aims to solve the problems that the harder the soil at the deeper layer, the more labor is required in the sampling process, the difficulty in operation is higher, and the deep soil is inconvenient to sample.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an environmental monitoring is with deep geotome, includes geotome main part and gear crane, the top of geotome main part is provided with gear drive case, the gear crane passes through the gear shaft and is connected the inside of installing at gear drive case with gear layer transmission, and the gear shaft passes through the motor with gear drive case and be connected, the below of geotome main part is provided with the position sleeve, and the position sleeve passes through connecting thread cover with the gear crane and be connected, the intermediate position of the inside of position sleeve is provided with the balancing piece, the top and the below of balancing piece are provided with telescopic link and lower telescopic link respectively, and go up the telescopic link and set up to symmetrical structure with lower telescopic link, the both sides of position sleeve are provided with the support frame, the below of lower telescopic link is provided with the geotome conical head, the both sides of the below of support frame are provided with the supporting legs.

In a further embodiment, the other side of the inside of the gear lifting frame is connected with the gear transmission box in a sliding mode through a guide pulley and a guide sliding groove, and the guide pulley is connected with the gear shaft through a positioning plate.

In a further embodiment, anti-skidding handles are arranged on two sides above the gear transmission case, and the gear transmission case is connected with the positioning sleeve in a welding mode through the supporting frame.

In a further embodiment, a plurality of balls are arranged on the side inside the balance block, the balance block is connected with the positioning sleeve in a sliding embedding mode, and the balance block is arranged in a cylindrical structure.

In a further embodiment, the soil storage groove is formed in the soil taking conical head, and the soil taking conical head is connected with the lower telescopic rod through welding.

In a further embodiment, a foot pad is arranged below the supporting foot, and the foot pad is fixedly connected with the supporting foot through threads.

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

1. the utility model discloses a soil sampler adopts the gear drive principle, the gear crane passes through the gear shaft with gear box and is connected with the gear layer transmission, and the gear shaft passes through the motor with gear box and is connected, it is rotatory to drive the gear shaft through the motor, can make the gear crane rise fast or reduce the adjustment, relatively save physical power, also improve sampling efficiency simultaneously, can make the soil sampling conical head adjust more stably from top to bottom through the gear drive principle, stronger brill power has, it is more laborsaving to take the soil of deep layer.

Drawings

FIG. 1 is a schematic diagram of the internal structure of a deep soil sampler for environmental monitoring according to the present invention;

FIG. 2 is a schematic view of the detail structure of part A of the present invention;

FIG. 3 is a front view of a deep soil sampler for environmental monitoring according to the present invention;

FIG. 4 is a bottom view of a deep soil sampler for environmental monitoring according to the present invention;

fig. 5 is a schematic structural view of a gear shaft of the present invention.

In the figure: 1. a gear lifting frame; 2. a guide chute; 3. a gear layer; 4. an anti-slip handle; 5. a gear transmission case; 6. a gear shaft; 7. a support frame; 8. a geotome body; 9. a positioning sleeve; 10. a lower telescopic rod; 11. a guide pulley; 12. taking a soil conical head; 13. a soil storage tank; 14. an upper telescopic rod; 15. a counterbalance; 16. a ball bearing; 17. supporting legs; 18. a foot pad; 19. a motor; 20. connecting a threaded sleeve; 21. and (7) positioning the plate.

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.

Referring to fig. 1-5, an embodiment of the present invention is shown: a deep soil sampler for environmental monitoring comprises a soil sampler main body 8 and a gear lifting frame 1, wherein a gear transmission case 5 is arranged above the soil sampler main body 8, the gear transmission case 5 is used for installing and protecting the gear lifting frame 1, the gear lifting frame 1 is installed inside the gear transmission case 5 through the transmission connection of a gear shaft 6 and a gear layer 3, the gear lifting frame 1 is convenient to operate through the transmission connection of the gear shaft 6 and the gear layer 3, the gear shaft 6 is connected with the gear transmission case 5 through a motor 19, the motor 19 can convert electric energy into mechanical energy to drive the gear shaft 6 to rotate, a positioning sleeve 9 is arranged below the soil sampler main body 8, a balance block 15 is installed and protected by the positioning sleeve 9, the positioning sleeve 9 is connected with the gear lifting frame 1 through a connecting threaded sleeve 20, the gear lifting frame 1 is convenient to be connected and fixed with an upper telescopic rod 14 in the positioning sleeve 9 through the connecting threaded sleeve 20, the middle position of the inside of position sleeve 9 is provided with balancing piece 15, balancing piece 15 guarantees the steadiness of adjusting from top to bottom of telescopic link 14 and lower telescopic link 10, the top and the below of balancing piece 15 are provided with telescopic link 14 and lower telescopic link 10 respectively, it is as an organic whole to go up telescopic link 14 and lower telescopic link 10 combination, be more convenient for adjust soil sampling conical head 12, and it sets up to symmetrical structure to go up telescopic link 14 and lower telescopic link 10, the both sides of position sleeve 9 are provided with support frame 7, support frame 7 makes position sleeve 9 stand more firmly, the below of lower telescopic link 10 is provided with soil sampling conical head 12, soil sampling conical head 12 is convenient for bore the underground, the both sides of the below of support frame 7 are provided with supporting legs 17, supporting legs 17 increases the steadiness of support frame 7.

Further, the other side of the inside of the gear crane 1 and the gear transmission case 5 are connected with the guide sliding groove 2 in a sliding mode through the guide pulley 11, the stability of the lifting of the gear crane 1 can be guaranteed by connecting the guide pulley 11 and the guide sliding groove 2, the guide pulley 11 is connected with the gear shaft 6 through the positioning plate 21, and the guide pulley 11 can be connected with the gear shaft 6 through the positioning plate 21.

Furthermore, the both sides of the top of gear transmission case 5 are provided with anti-skidding handle 4, and the handheld operation of anti-skidding handle 4 is convenient for, and gear transmission case 5 passes through support frame 7 welded connection with position sleeve 9, can make gear transmission case 5 be connected more firmly with position sleeve 9 through support frame 7 welding.

Further, the avris in the balancing piece 15 is provided with a plurality of balls 16, and balls 16 increase the slidability, and balancing piece 15 inlays through the slip with position sleeve 9 and is connected, inlays through the slip to be convenient for adjust balancing piece 15 from top to bottom, and balancing piece 15 sets up to the cylinder structure, can guarantee the slidability through the cylinder structure.

Further, the inside of the soil sampling conical head 12 is provided with a soil storage tank 13, the soil sampled by the soil storage tank 13 is stored, the soil sampling conical head 12 is connected with the lower telescopic rod 10 through welding, and the soil sampling conical head 12 and the lower telescopic rod 10 can be connected into a whole through welding and are firmer.

Further, the foot pad 18 is arranged below the supporting leg 17, the foot pad 18 increases the standing stability of the supporting leg 17, the foot pad 18 is fixedly connected with the supporting leg 17 through threads, the foot pad 18 can be connected with the supporting leg 17 through threads, and the mounting or the dismounting are convenient.

The working principle is as follows: during the use, hold the anti-skidding handle 4 of both sides, the conical head 12 that will borrow soil inserts required sampling soil and goes out, inlay supporting legs 17 and ground, make the geotome main part 8 stabilize and stand, starter motor 19 turns into mechanical energy through motor 19 and makes gear shaft 6 rotatory, makes gear crane 1 reduce downwards through gear layer 3, makes down telescopic link 10 promote downwards, bore the deep department of soil with the conical head 12 that borrows, deposit deep soil through storing up soil groove 13 can.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides an environmental monitoring is with deep geotome, includes geotome main part (8) and gear crane (1), its characterized in that: the soil sampler is characterized in that a gear transmission case (5) is arranged above the soil sampler main body (8), the gear lifting frame (1) is connected with the gear layer (3) through a gear shaft (6) in a transmission way and is arranged inside the gear transmission case (5), the gear shaft (6) is connected with the gear transmission case (5) through a motor (19), a positioning sleeve (9) is arranged below the soil sampler main body (8), the positioning sleeve (9) is connected with the gear lifting frame (1) through a connecting threaded sleeve (20), a balance block (15) is arranged at the middle position inside the positioning sleeve (9), an upper telescopic rod (14) and a lower telescopic rod (10) are respectively arranged above and below the balance block (15), the upper telescopic rod (14) and the lower telescopic rod (10) are arranged in a symmetrical structure, support frames (7) are arranged on two sides of the positioning sleeve (9), a soil sampling conical head (12) is arranged below the lower telescopic rod (10), supporting legs (17) are arranged on two sides of the lower portion of the supporting frame (7).

2. The deep geotome for environmental monitoring of claim 1, wherein: the other side of the interior of the gear lifting frame (1) is connected with the gear transmission box (5) in a sliding mode through the guide pulley (11) and the guide sliding groove (2), and the guide pulley (11) is connected with the gear shaft (6) through the positioning plate (21).

3. The deep geotome for environmental monitoring of claim 1, wherein: the anti-skidding handle (4) is arranged on two sides above the gear transmission case (5), and the gear transmission case (5) is connected with the positioning sleeve (9) through the support frame (7) in a welding mode.

4. The deep geotome for environmental monitoring of claim 1, wherein: the avris in balancing piece (15) is provided with a plurality of balls (16), balancing piece (15) are inlayed through sliding with position sleeve (9) and are connected, and balancing piece (15) set up to the cylinder structure.

5. The deep geotome for environmental monitoring of claim 1, wherein: the soil storage groove (13) is formed in the soil taking conical head (12), and the soil taking conical head (12) is connected with the lower telescopic rod (10) in a welding mode.

6. The deep geotome for environmental monitoring of claim 1, wherein: a foot pad (18) is arranged below the supporting leg (17), and the foot pad (18) is fixedly connected with the supporting leg (17) through threads.

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