CN212321132U - Water and soil conservation monitoring continuous sampling and storing device - Google Patents

Abstract

The utility model relates to a soil and water monitoring technology field specifically is a soil and water conservation monitoring continuous sampling save set, which comprises an installation bench, first bin and second bin have been placed to the top one end of mount table, and the top other end of mount table runs through and is equipped with and presses a section of thick bamboo, the both sides welding that the mount table is located a pressing section of thick bamboo has the backplate, the one end welding of mount table has the handrail, and the bottom of mount table is provided with the link, the top of a pressing section of thick bamboo is run through and is equipped with the press bar, and presses the top welding of press bar to have a pressing disk, press bar's end has cup jointed the magnet, press bar is located a pressing section of thick bamboo inside first spring that has cup jointed. This device is preserved soil sample and soil and is connected into a structure to make the suitability of device wider, fundamentally has solved when going out soil sample again, need carry the difficult problem of a plurality of equipment, and this device is convenient along with depositing along with taking moreover, is difficult to obscure simultaneously.

Description

Water and soil conservation monitoring continuous sampling and storing device

Technical Field

The utility model relates to a soil and water monitoring technology field specifically is a soil and water conservation monitoring continuous sampling save set.

Background

The water and soil conservation monitoring means long-term investigation, observation and analysis work on water and soil loss occurrence, development, harm and water and soil conservation benefits, the water and soil loss type, strength and distribution characteristics, harm and influence conditions thereof, occurrence and development rules and dynamic change trends are found through the water and soil conservation monitoring, and the water and soil conservation monitoring has important significance on the comprehensive treatment of water and soil loss, the macroscopic decision of ecological environment construction and the scientific, reasonable and systematic arrangement of various measures for water and soil conservation.

Soil and water keep monitoring in-process and need take a sample to soil, and current continuous soil sampling in-process will once deposit soil in the sampling tube once taking a sample, then places the sampling tube in the case that carries, but also only as the save tool, and the effect is single, and a sample still need carry a plurality of equipment. Therefore, the person skilled in the art provides a continuous sampling and storing device for soil and water conservation monitoring to solve the problems mentioned in the background art.

Disclosure of Invention

An object of the utility model is to provide a soil and water conservation keeps monitoring continuous sampling save set to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a soil and water conservation monitoring continuous sampling save set, includes the mount table, first bin and second bin have been placed to the top one end of mount table, and the top other end of mount table runs through to be equipped with and presses a section of thick bamboo, the mount table is located and presses the both sides welding of a section of thick bamboo to have the backplate, the one end welding of mount table has the handrail, and the bottom of mount table is provided with the link, the top of pressing a section of thick bamboo runs through to be equipped with and presses the depression bar, and presses the top welding of depression bar to have a pressure dish, press the end of depression bar to have cup jointed the magnet, press the depression bar to be located and press a section of thick bamboo inside first spring has been cup jointed, and the top that is located first spring on the depression bar has cup jointed spacing dish, the below that presses a section of thick bamboo inner wall to be located first.

As a further aspect of the present invention: the top of first bin and second bin has sealed lid through hinge swing joint, and the top of sealed lid has the handle near the one end welding of pressing a section of thick bamboo.

As a further aspect of the present invention: the inside of first bin and second bin all is provided with the grid, and the grid is cut apart into the same cavity of volume with the inside of first bin and second bin, the sampling tube has been placed in the cavity of first bin and second bin.

As a further aspect of the present invention: the top of sampler barrel runs through and is equipped with the connecting rod, and the top of connecting rod is connected with the iron sheet, the end-to-end connection of sampler barrel has the test tube.

As a further aspect of the present invention: the connecting rod is located the inside department of sampler barrel and has cup jointed the second spring, and is located the top of second spring on the connecting rod and is provided with the second stopper.

As a further aspect of the present invention: the inner wall of sampler barrel and the below that is located the second spring are provided with the third stopper, the bottom of sampler barrel is provided with the support, and the support is loop configuration, the bottom of sampler barrel just is located and is provided with a set of gasket in the support, and passes through torsional spring connection between gasket and the sampler barrel.

As a further aspect of the present invention: the inner diameter of the upper section of the pressing cylinder is larger than the outer diameter of the sampling cylinder, the inner diameter of the lower section of the pressing cylinder is equal to the outer diameter of the sampling cylinder, and the height of the throwing hole is larger than that of the sampling cylinder.

Compared with the prior art, the beneficial effects of the utility model are that: the device connects soil sampling and soil preservation into a structure, thereby the applicability of the device is wider, the difficult problem that a plurality of devices need to be carried when the device takes out soil sampling again is fundamentally solved, the device is convenient to take and store at any time and is not easy to be confused, two storage boxes are arranged on the device, one of the storage boxes is used for placing an empty sampling tube, the other storage box is used for placing the sampling tube after sampling, the empty sampling tube is placed through a throwing hole when in use, the pressing tube is pressed in the pressing tube, then the pressing rod is pressed, the connecting rod of the sampling tube is extruded by the magnet at the bottom of the pressing rod, the crown is exposed outwards, the test tube is contacted with the ground and goes deep into the ground for sampling, then the connecting rod connected with the test tube is reset through a second spring, the test tube is pulled out from the ground, the sealing piece is tightly closed to complete locking, the soil is prevented from falling, the magnet sucks, and press the depression bar through first spring reset to make the sampler barrel expose on throwing the hole, then the manual work take out place to empty storage box in can.

Drawings

FIG. 1 is a schematic structural diagram of a continuous sampling and storing device for soil and water conservation monitoring;

FIG. 2 is a schematic view of a pressing cylinder of a continuous sampling and storing device for soil and water conservation monitoring;

FIG. 3 is a schematic view of the structure of the storage tank of the continuous sampling and storing device for soil and water conservation monitoring;

fig. 4 is a schematic structural diagram of a sampling cylinder in a soil and water conservation monitoring continuous sampling and storing device.

In the figure: 1. a pressing lever; 2. a handle; 3. a first storage tank; 4. a second storage tank; 5. an installation table; 6. a connecting frame; 7. a guard plate; 8. a handrail; 9. a throwing hole; 10. pressing the barrel; 11. pressing the disc; 12. a limiting disc; 13. a first spring; 14. a magnet; 15. a first stopper; 16. a sealing cover; 17. a sampling tube; 18. a grid; 19. iron sheets; 20. a connecting rod; 21. a second limiting block; 22. a third limiting block; 23. sealing the sheet; 24. a support; 25. a test tube; 26. a second spring.

Detailed Description

Referring to fig. 1 to 4, in the embodiment of the present invention: the utility model provides a soil and water conservation monitoring continuous sampling save set, including mount table 5, first bin 3 and second bin 4 have been placed to the top one end of mount table 5, and the top other end of mount table 5 runs through and is equipped with and presses a section of thick bamboo 10, mount table 5 is located and presses the both sides welding of a section of thick bamboo 10 to have backplate 7, the one end welding of mount table 5 has handrail 8, and the bottom of mount table 5 is provided with link 6, the top of pressing a section of thick bamboo 10 runs through and is equipped with and presses depression bar 1, and the top welding of pressing bar 1 has and presses pressure dish 11, press the end of pressing bar 1 to have cup jointed magnet 14, press bar 1 to be located and press a section of thick bamboo 10 inside to have cup jointed first spring 13, and the top that is located first spring 13 on pressing bar 1 has cup jointed spacing dish 12, the below that presses a section of thick bamboo 10 inner wall to be located first spring 13 is equipped with first stopper 15.

In fig. 3, a sealing cover 16 is movably connected to the top of the first storage box 3 and the top of the second storage box 4 by a hinge, and a handle 2 is welded to the top of the sealing cover 16 near one end of the pressing cylinder 10, the sealing cover 16 is used for ensuring the sealing performance of the first storage box 3 and the second storage box 4, and the handle 2 is used for facilitating the lifting of the sealing cover 16.

In fig. 3, the interior of the first storage box 3 and the interior of the second storage box 4 are both provided with a grid 18, the grid 18 divides the interior of the first storage box 3 and the interior of the second storage box 4 into cavities with the same volume, a sampling tube 17 is placed in the cavities of the first storage box 3 and the second storage box 4, the grid 18 is used for dividing the interior of the first storage box 3 and the interior of the second storage box 4 into small compartments with the same area, and thus the sampling tube 17 cannot shake and be mixed when placed inside.

In fig. 4, the top of sampler barrel 17 is run through and is equipped with connecting rod 20, and the top of connecting rod 20 is connected with iron sheet 19, and the end-to-end connection of sampler barrel 17 has test tube 25, and the magnet 14 of pressing the bottom of pole 1 at first can hold iron sheet 19 to drive sampler barrel 17 downstream, sampler barrel 17 is at the in-process of downstream, and its bottom can be contradicted and press the section of thick bamboo 10 inside and connecting rod 20 continues downstream, thereby accomplish the sample in the soil with test tube 25 impresses.

In fig. 4, connecting rod 20 is located the inside department of sampler barrel 17 and has cup jointed second spring 26, and the top that is located second spring 26 on the connecting rod 20 is provided with second stopper 21, and the completion sample back connecting rod 20 resets under the effect of second spring 26 to drive test tube 25 and continue to preserve in reentering sampler barrel 17, thereby the effect of second stopper 21 oppresses second spring 26 and is that connecting rod 20 can drive test tube 25 and get into the soil layer.

In fig. 4, the inner wall of sampler barrel 17 and the below that is located second spring 26 are provided with third stopper 22, the bottom of sampler barrel 17 is provided with support 24, and support 24 is the loop configuration, the bottom of sampler barrel 17 and be located and be provided with a set of gasket 23 in the support 24, and through torsional spring connection between gasket 23 and the sampler barrel 17, support 24 is that the inner wall of contradicting and pressing a section of thick bamboo 10 prevents that sampler barrel 17 from dropping, the effect of gasket 23 is extrusion gasket 23 when test tube 25 exposes, gasket 23 opens and provides the passageway for the sample of test tube 25, when test tube 25 sample is accomplished the back and is advanced inside sampler barrel 17, gasket 23 is closed again through the torsional spring, thereby guarantee that the soil after the sample can not drop and receive the pollution.

In fig. 1, the inner diameter of the upper section of the push cylinder 10 is larger than the outer diameter of the sampling cylinder 17, the inner diameter of the lower section is equal to the outer diameter of the sampling cylinder 17, and the height of the throwing hole 9 is larger than the height of the sampling cylinder 17, which is designed to prevent the sampling cylinder 17 from being put into the push cylinder 10 through the throwing hole 9.

The utility model discloses a theory of operation is: when the sampling device is used, the sealing cover 16 on the first storage box 3 is opened, the sampling cylinder 17 is taken out, the sampling cylinder 17 is placed in the pressing cylinder 10 through the throwing hole 9, the sampling cylinder 17 drops to the bottom end of the pressing cylinder 10, then the pressing disc 11 is pressed by a hand to enable the pressing rod 1 to move downwards, the pressing rod 1 extrudes the first spring 13 through the limiting disc 12 and moves downwards, the magnet 14 at the bottom of the pressing rod 1 firstly absorbs the iron sheet 19 and drives the sampling cylinder 17 to move downwards, the bottom of the sampling cylinder 17 props against the inside of the pressing cylinder 10 and the connecting rod 20 continues to move downwards in the downward movement process, so that the test tube 25 is pressed into soil to finish sampling, the connecting rod 20 resets under the action of the second spring 26 after the sampling is finished, the test tube 25 is driven to reenter the sampling cylinder 17 to continuously store the sealing sheet, when the test tube 25 retracts into the sampling cylinder 17 after the sampling is finished, the sealing sheet 23 is reclosed through the torsion spring, thereby guarantee that the soil after the sample can not drop and receive the pollution, press the bounce that pole 1 passes through first spring 13 to reset afterwards to drive upward movement with sampler barrel 17, final sampler barrel 17 exposes on throwing hole 9, then in user of service pulls out sampler barrel 17 and places the second bin 4.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides a soil and water conservation monitoring continuous sampling save set, includes mount table (5), its characterized in that: the top one end of mount table (5) has been placed first bin (3) and second bin (4), and the top other end of mount table (5) runs through and is equipped with and presses a section of thick bamboo (10), the both sides welding that mount table (5) are located and press a section of thick bamboo (10) has backplate (7), the one end welding of mount table (5) has handrail (8), and the bottom of mount table (5) is provided with link (6), the top of pressing a section of thick bamboo (10) runs through and is equipped with presses depression bar (1), and presses the top welding of depression bar (1) to have and press disc (11), press the end of depression bar (1) to cup joint magnet (14), press the inside first spring (13) that has cup jointed of depression bar (1), and press the top that lies in first spring (13) on the depression bar (1) to cup joint spacing dish (12), it is equipped with first stopper (15) to press a section of thick bamboo (10) inner wall to be located the below of first spring (13), and a throwing hole (9) is arranged at the center of the pressing cylinder (10).

2. The continuous sampling and storing device for soil and water conservation and monitoring as claimed in claim 1, wherein the top of the first storage box (3) and the second storage box (4) is movably connected with a sealing cover (16) through a hinge, and a handle (2) is welded at one end of the top of the sealing cover (16) close to the pressing cylinder (10).

3. The continuous sampling and storing device for water and soil conservation monitoring according to claim 1, wherein the first storage tank (3) and the second storage tank (4) are provided with grids (18) inside, the grids (18) divide the inside of the first storage tank (3) and the inside of the second storage tank (4) into cavities with the same volume, and sampling cylinders (17) are arranged in the cavities of the first storage tank (3) and the second storage tank (4).

4. The continuous sampling and storing device for soil and water conservation and monitoring as claimed in claim 3, wherein the top of the sampling cylinder (17) is provided with a connecting rod (20) in a penetrating way, the top of the connecting rod (20) is connected with an iron sheet (19), and the tail end of the sampling cylinder (17) is connected with a test tube (25).

5. The continuous sampling and storing device for soil and water conservation and monitoring as claimed in claim 4, wherein the connecting rod (20) is sleeved with a second spring (26) at the inner part of the sampling cylinder (17), and a second limiting block (21) is arranged on the connecting rod (20) above the second spring (26).

6. The continuous sampling and storing device for soil and water conservation and monitoring according to claim 5, characterized in that a third limiting block (22) is arranged on the inner wall of the sampling cylinder (17) and below the second spring (26), a support (24) is arranged at the bottom end of the sampling cylinder (17), the support (24) is of an annular structure, a set of sealing sheets (23) is arranged at the bottom end of the sampling cylinder (17) and in the support (24), and the sealing sheets (23) are connected with the sampling cylinder (17) through torsion springs.

7. The continuous sampling and storing device for soil and water conservation monitoring according to claim 3, characterized in that the inner diameter of the upper section of the pressing cylinder (10) is larger than the outer diameter of the sampling cylinder (17), the inner diameter of the lower section of the pressing cylinder (10) is equal to the outer diameter of the sampling cylinder (17), and the height of the throwing hole (9) is larger than the height of the sampling cylinder (17).

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