CN210293756U - Sampling device for soil detection - Google Patents

Abstract

The utility model discloses a sampling device for soil detection, including fixed frame, inserted bar, motor and fender soil block, the surface of fixed frame is provided with first articulated, and first articulated fixed surface has the dwang, the right-hand member of dwang is provided with that the second is articulated, the inside of fixed frame sets up also threaded rod, the surface in collection soil groove is provided with first slider, and the fixed surface of first slider has the pull rod, the lower extreme of pull rod is provided with and keeps off soil block, the upper end of threaded rod is provided with the mullion. This sampling device for soil testing is provided with mullion, second slider, slide bar and fastening nut, because the connected mode between slide bar and the pull rod is the welding, when the pull rod rose, the slide bar also upwards slided in the mullion through the second slider, after getting soil sample, screwed up fastening nut, the spring can not resume deformation, when needs push the collector with soil sample in, loosen fastening nut, thereby make the spring resume deformation, push the collector with soil sample.

Description

Sampling device for soil detection

Technical Field

The utility model relates to a soil detection technical field specifically is a sampling device for soil detection.

Background

In a country with the largest global population, agricultural production has great significance for 14 hundred million people in China, and the quality of soil affects the yield of crops and the quality of environment, so a soil detection device is invented.

And present most soil sampling device is in all that the manpower is with soil sampler commentaries on classics into soil, not only consuming time still hard, and mostly need the manpower to support to after taking out soil sample, because soil is compacted, need dial into the collector with soil gradation in, it is not simple and convenient enough.

Therefore, we propose a sampling device for soil detection to solve the problems set forth above.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a sampling device for soil testing to solve above-mentioned background art and propose and present most soil sampling device all be the manpower with soil sampler in the soil, and mostly need the manpower support and can not once put into the problem in the collector with the compacted soil.

In order to achieve the above object, the utility model provides a following technical scheme: a sampling device for soil detection comprises a fixed frame, an insertion rod, a motor and a soil blocking block, wherein the surface of the fixed frame is provided with a first hinge joint, a rotating rod is fixed on the surface of the first hinge joint, a second hinge joint is arranged at the right end of the rotating rod, the surface of the second hinge joint is provided with the insertion rod, a threaded rod is also arranged in the fixed frame, a motor is arranged at the upper end of the threaded rod, a soil collection groove is formed in the threaded rod, a first sliding block is arranged on the surface of the soil collection groove, a pull rod is fixed on the surface of the first sliding block, a soil blocking block is arranged at the lower end of the pull rod, a vertical frame is arranged at the upper end of the threaded rod, a second sliding block is arranged in the vertical frame, a fastening nut is installed at the left end of the vertical frame, a sliding rod is fixed on the surface of the second sliding block, a spring is, and an annular rod is arranged inside the sliding frame.

Preferably, the dwang constitutes revolution mechanic through first articulated and fixed frame, and the dwang constitutes revolution mechanic through the second is articulated and inserted bar.

Preferably, the pull rod forms a sliding structure through the first sliding block and the soil collecting groove, and the length of the pull rod is equal to that of the soil collecting groove.

Preferably, the soil retaining block is arc-shaped, and the width of the soil retaining block is equal to the size of the soil collecting groove.

Preferably, the connection mode between the springs and the pull rod is welding, and the two groups of springs are arranged symmetrically about the center of the pull rod.

Preferably, the sliding rod forms a sliding structure through the second sliding block and the vertical frame, two groups of the sliding structures are symmetrically arranged on the center of the threaded rod, and the sliding rod and the pull rod are connected in a welding mode.

Preferably, the annular rod and the sliding frame form a sliding structure, and the annular rod is connected with the motor in an embedded mode.

Compared with the prior art, the beneficial effects of the utility model are that: the sampling device for soil detection is improved aiming at the defects of the prior art, so that the sampling device for soil detection is more convenient to use,

(1) the soil sample is taken, because the width of the soil retaining block is equal to the size of the soil collecting groove, the soil cannot enter the soil collecting groove at the rear end of the soil retaining block;

(2) the soil sample sampling device is provided with a first hinge, a rotating rod, a second hinge and an inserting rod, when a soil sample needs to be taken, the whole device is inconvenient to place due to uneven soil, and the inserting rod is rotated to a proper position through the second hinge to enable the whole device to be kept horizontal;

(3) the soil sample collector is provided with a pull rod, a first sliding block and a spring, when soil enters the soil collecting groove, the pull rod is pushed by the soil to move upwards, so that the soil is automatically collected, and the spring is stretched, so that when the soil sample is taken out, the soil can be completely removed from the soil collecting groove into the collector by virtue of the deformation of the spring;

(4) be provided with mullion, second slider, slide bar and fastening nut, because the connected mode between slide bar and the pull rod is the welding, when the pull rod rose, the slide bar also upwards slided in the mullion through the second slider, when getting soil sample after, screwed up fastening nut, the spring can not resume deformation, when needs push the collector with soil sample in, loosen fastening nut to make the spring resume deformation, push the collector with soil sample.

Drawings

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

FIG. 2 is a left side view structural diagram of the mullion of the present invention;

FIG. 3 is a schematic view of the structure at A in FIG. 1 according to the present invention;

fig. 4 is the utility model discloses the fixed frame structural diagram of bowing in section.

In the figure: 1. a fixing frame; 2. a first hinge; 3. rotating the rod; 4. a second hinge joint; 5. inserting a rod; 6. a threaded rod; 7. a motor; 8. a first slider; 9. a pull rod; 10. a soil retaining block; 11. a soil collecting groove; 12. a mullion; 13. a second slider; 14. fastening a nut; 15. a spring; 16. a slide bar; 17. an annular rod; 18. and (6) sliding the frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a sampling device for soil detection comprises a fixed frame 1, a first hinge 2, a rotating rod 3, a second hinge 4, an inserted link 5, a threaded rod 6, a motor 7, a first sliding block 8, a pull rod 9, a soil blocking block 10, a soil collecting groove 11, a vertical frame 12, a second sliding block 13, a fastening nut 14, a spring 15, a sliding rod 16, an annular rod 17 and a sliding frame 18, wherein the surface of the fixed frame 1 is provided with the first hinge 2, the surface of the first hinge 2 is fixedly provided with the rotating rod 3, the right end of the rotating rod 3 is provided with the second hinge 4, the surface of the second hinge 4 is provided with the inserted link 5, the inside of the fixed frame 1 is also provided with the threaded rod 6, the upper end of the threaded rod 6 is provided with the motor 7, the inside of the threaded rod 6 is provided with the soil collecting groove 11, the surface of the soil collecting groove 11 is provided with the first sliding block 8, the surface of the first sliding block 8 is fixedly provided with, the upper end of threaded rod 6 is provided with mullion 12, and mullion 12 is inside to be provided with second slider 13 to fastening nut 14 is installed to the left end of mullion 12, and the fixed surface of second slider 13 has slide bar 16, and the upper end of threaded rod 6 is provided with spring 15, and the surface of fixed frame 1 is provided with smooth frame 18, and smooth frame 18 is inside to be provided with annular pole 17.

Dwang 3 constitutes revolution mechanic through first articulated 2 and fixed frame 1, and dwang 3 constitutes revolution mechanic through second articulated 4 and inserted bar 5, can place whole device at the subaerial level.

The pull rod 9 forms a sliding structure through the first sliding block 8 and the soil collecting groove 11, and the length of the pull rod 9 is equal to that of the soil collecting groove 11, so that a soil sample can enter the soil collecting groove 11.

The soil retaining block 10 is arc-shaped, the width of the soil retaining block 10 is equal to the size of the soil collecting groove 11, and soil samples can not enter the soil collecting groove 11 at the rear end of the soil retaining block 10.

The connection mode between the spring 15 and the pull rod 9 is welding, and the spring 15 is arranged in two groups in the central symmetry of the pull rod 9, and the deformation can be recovered through the spring 15, so that the soil retaining block 10 pushes the sample soil into the collector.

The sliding rod 16 forms a sliding structure through the second sliding block 13 and the vertical frame 12, two groups of sliding structures are symmetrically arranged on the center of the threaded rod 6, the sliding rod 16 and the pull rod 9 are connected in a welding mode, the pull rod 9 can be fixed, and the spring 15 cannot deform.

The annular rod 17 and the sliding frame 18 form a sliding structure, and the annular rod 17 is connected with the motor 7 in an embedded mode, so that the motor 7 cannot rotate and can ascend or descend together with the threaded rod 6.

The working principle is as follows: firstly, according to fig. 1, when a soil sample needs to be taken, the whole device is not convenient to place due to uneven soil, the inserted rod 5 is rotated to a proper position through the second hinge 4 to keep the whole device horizontal, because the inserted rod 5 is provided with three groups and the triangle has stability, the whole device is firmly placed on the ground, then the motor 7 is turned on, the threaded rod 6 starts to rotate to enter the soil layer, when the threaded rod 6 reaches the upper part of the target soil layer, the pull rod 9 is pulled upwards according to fig. 2, 3 and 4, the threaded rod 6 continues to move downwards, the soil sample enters the soil collecting groove 11 and pushes the pull rod 9 to move upwards, so that the soil is automatically collected, the spring 15 is stretched, because the connection mode between the slide rod 16 and the pull rod 9 is welding, when the pull rod 9 is lifted, the slide rod 16 also slides upwards in the vertical frame 12 through the second slide block 13, after taking the soil sample, the fastening nut 14 is screwed down, the spring 15 cannot recover the deformation, after collecting enough target soil, the motor 7 is reversed, the threaded rod 6 rotates upwards, when the threaded rod 6 leaves the soil layer, the fixing frame 1 rotates and inclines through the first hinge 2, aligns with the collector, the fastening nut 14 is unscrewed, the spring 15 recovers the deformation, the pull rod 9 is pushed, so that the soil retaining block 10 pushes the soil sample into the collector, when the motor 7 drives the threaded rod 6 to rotate downwards, the motor 7 slides downwards in the sliding frame 18 through the annular rod 17, and the using process of the sampling device for soil detection is the same, and the content which is not described in detail in the specification belongs to the prior art which is well known to the technicians in the field.

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 modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides a sampling device for soil detection, includes fixed frame (1), inserted bar (5), motor (7) and keeps off native block (10), its characterized in that: the surface of the fixed frame (1) is provided with a first hinge (2), the surface of the first hinge (2) is fixed with a rotating rod (3), the right end of the rotating rod (3) is provided with a second hinge (4), the surface of the second hinge (4) is provided with an inserting rod (5), the inside of the fixed frame (1) is also provided with a threaded rod (6), the upper end of the threaded rod (6) is provided with a motor (7), a soil collecting groove (11) is formed in the threaded rod (6), the surface of the soil collecting groove (11) is provided with a first sliding block (8), the surface of the first sliding block (8) is fixed with a pull rod (9), the lower end of the pull rod (9) is provided with a soil retaining block (10), the upper end of the threaded rod (6) is provided with a vertical frame (12), the inside of the vertical frame (12) is provided with a second sliding block (13), and the left end of the vertical frame (12) is provided with, the surface mounting of second slider (13) has slide bar (16), the upper end of threaded rod (6) is provided with spring (15), the surface of fixed frame (1) is provided with sliding frame (18), and sliding frame (18) inside is provided with annular pole (17).

2. The sampling device for soil detection according to claim 1, wherein: dwang (3) constitute rotating-structure through first articulated (2) and fixed frame (1), and dwang (3) constitute rotating-structure through second articulated (4) and inserted bar (5).

3. The sampling device for soil detection according to claim 1, wherein: the pull rod (9) forms a sliding structure through the first sliding block (8) and the soil collecting groove (11), and the length of the pull rod (9) is equal to that of the soil collecting groove (11).

4. The sampling device for soil detection according to claim 1, wherein: the soil retaining block (10) is arc-shaped, and the width of the soil retaining block (10) is equal to the size of the soil collecting groove (11).

5. The sampling device for soil detection according to claim 1, wherein: the connecting mode between the springs (15) and the pull rod (9) is welding, and the two groups of springs (15) are arranged in a central symmetry mode relative to the pull rod (9).

6. The sampling device for soil detection according to claim 1, wherein: the sliding rod (16) forms a sliding structure through the second sliding block (13) and the vertical frame (12), two groups of sliding structures are symmetrically arranged on the center of the threaded rod (6), and the sliding rod (16) and the pull rod (9) are connected in a welding mode.

7. The sampling device for soil detection according to claim 1, wherein: the annular rod (17) and the sliding frame (18) form a sliding structure, and the annular rod (17) is connected with the motor (7) in an embedded mode.

Images