CN216899696U - Soil sampling device for environmental detection - Google Patents

Abstract

The utility model discloses a soil sampling device for environment detection, which comprises a supporting plate, a sampling cylinder, a driving assembly, a transmission assembly, a moving wheel, a transmission mechanism, a transmission assembly and a mounting frame, wherein one end of the transmission assembly is connected with the driving assembly, the other end of the transmission assembly is connected with the sampling cylinder, one end of the transmission mechanism is connected with the driving assembly, the other end of the transmission mechanism is connected with a transverse plate and used for driving the transverse plate to be close to or far away from the ground, the moving wheel is arranged on the supporting plate, when soil sampling is carried out, the device is moved to a specified position, the driving assembly drives the transmission assembly and the transmission mechanism to operate, the sampling cylinder can move downwards simultaneously when rotating, the sampling cylinder can rotate towards the soil conveniently, the soil can be sampled conveniently and rapidly, and the sampling efficiency is greatly improved.

Description

Soil sampling device for environmental detection

Technical Field

The utility model relates to a sampling device, in particular to a soil sampling device for environment detection.

Background

Soil environment monitoring refers to determining environmental quality (or pollution degree) and the change trend thereof by measuring representative values of factors affecting soil environment quality. Generally, soil monitoring refers to soil environment monitoring and generally comprises technical contents such as stationed sampling, sample preparation, an analysis method, result characterization, data statistics, quality evaluation and the like; the existing soil sampling device mostly adopts a shovel to shovel soil, so that soil is easily scattered when collected, time and labor are wasted, and efficiency is not high, so that the problem is solved by designing the soil sampling device for environment detection.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a soil sampling device for environment detection, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

the soil sampling device for environment detection comprises a supporting plate and a mounting frame, wherein the mounting frame is fixedly arranged on the supporting plate, and the soil sampling device also comprises a transverse plate which is arranged on the mounting frame in a sliding manner;

the driving assembly is arranged on the transverse plate;

a sampling tube;

one end of the transmission component is connected with the driving component, and the other end of the transmission component is connected with the sampling cylinder and is used for driving the sampling cylinder to rotate;

one end of the transmission mechanism is connected with the driving assembly, and the other end of the transmission mechanism is connected with the transverse plate and used for driving the transverse plate to be close to or far away from the ground;

a moving wheel mounted on the support plate.

As a further scheme of the utility model: the driving component comprises a driving piece, and the driving piece is arranged on the transverse plate;

one end of the first driving shaft is connected with the driving part, and the other end of the first driving shaft is connected with the transmission assembly;

and one end of the second driving shaft is connected with the driving part, the other end of the second driving shaft is connected with the transmission mechanism, and the driving part is used for driving the first driving shaft and the second driving shaft to rotate.

As a further scheme of the utility model: the transmission assembly comprises a driven shaft, one end of the driven shaft is rotatably connected with the transverse plate, and the other end of the driven shaft is fixedly connected with the sampling cylinder;

and one end of the connecting unit is connected with the first driving shaft, and the other end of the connecting unit is connected with the driven shaft.

As a further scheme of the utility model: the driven shaft is of a cavity structure and is provided with an installation groove;

the push plate is slidably arranged in the sampling cylinder and is attached to the sampling cylinder;

and one end of the driving part is connected with the push plate, and the other end of the driving part is connected with the mounting groove and used for driving the push plate to slide.

As a further scheme of the utility model: the transmission mechanism comprises a threaded rod, and the threaded rod is rotatably connected with the mounting frame;

one end of the telescopic piece is connected with the second driving shaft, and the other end of the telescopic piece is connected with the threaded rod;

the threaded sleeve is connected with the threaded rod through threads;

and one end of the limiting rod is connected with the threaded sleeve, and the other end of the limiting rod is connected with the transverse plate.

Compared with the prior art, the utility model has the beneficial effects that: when carrying out soil sampling, earlier remove the assigned position with the device, driving piece drive second drive shaft rotates, the second drive shaft passes through the extensible member and drives the threaded rod rotation, the threaded rod rotates and makes the connecting thread cover remove with it, the threaded sleeve drives the diaphragm and moves down under the effect of gag lever post, and then drive the sampler barrel and to being close to ground first removal, be convenient for the sampler barrel when taking a sample better go deep into ground, the driving piece drives first drive shaft and rotates, first drive shaft passes through the linkage unit and drives the driven shaft and rotate, the driven shaft drives the sampler barrel of being connected with and rotates, and then the sampler barrel of being convenient for takes a sample, need take out the soil in the sampler barrel after the sample finishes, drive the push pedal through the drive part this moment and slide, and then release the soil of gathering in the sampler barrel, and is convenient and high-efficient, and the practicality of device is promoted.

Drawings

Fig. 1 is a schematic structural diagram of a soil sampling device for environmental detection.

Fig. 2 is a cross-sectional view of the driven shaft.

In the figure: 1. a support plate; 2. a mounting frame; 3. a moving wheel; 4. an electric telescopic rod; 5. a fixed block; 6. a sampling tube; 7. a driven shaft; 8. a drive member; 9. pushing the plate; 10. a drive member; 11. a telescoping member; 12. a threaded rod; 13. a limiting rod; 15. a transverse plate; 16. a connection unit; 17. a first drive shaft.

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. 1-2, as an embodiment of the present invention, a soil sampling device for environmental detection includes a supporting plate 1 and a mounting frame 2, wherein the mounting frame 2 is fixedly mounted on the supporting plate 1, and further includes a transverse plate 15, and the transverse plate 15 is slidably mounted on the mounting frame 2;

a drive assembly mounted on the cross plate 15;

a sampling tube 6;

one end of the transmission component is connected with the driving component, and the other end of the transmission component is connected with the sampling cylinder 6 and is used for driving the sampling cylinder 6 to rotate;

one end of the transmission mechanism is connected with the driving assembly, and the other end of the transmission mechanism is connected with the transverse plate 15 and used for driving the transverse plate 15 to be close to or far away from the ground;

a moving wheel 3, the moving wheel 3 being mounted on the support plate 1.

In this embodiment, mounting bracket 2 fixed mounting is on backup pad 1, diaphragm 15 slidable mounting is on mounting bracket 2, drive assembly installs on diaphragm 15, drive assembly one end is connected with drive assembly, and the other end is connected with sampler barrel 6, rotates with driving sampler barrel 6, drive mechanism one end is connected with drive assembly, and the other end is connected with diaphragm 15 for drive diaphragm 15 is close to or keeps away from ground, it installs on backup pad 1 to remove wheel 3, when carrying out soil sampling, removes the assigned position with the device earlier, and drive assembly drives drive assembly and drive mechanism operation, and then makes sampler barrel 6 can be while pivoted downstream simultaneously, and sampler barrel 6 of being convenient for is to the soil internal rotation, and then can take a sample to soil, and is convenient, has promoted the efficiency of sample greatly.

Further, electric telescopic handle 4 is installed to 1 bottom in backup pad, electric telescopic handle 4 keeps away from 1 one end in backup pad and is connected with fixed block 5, when the device removed suitable position, drives fixed block 5 through electric telescopic handle 4 and removes to being close to ground one side until with ground contact for the stability of device is better, and the device of being convenient for takes a sample.

As an embodiment of the present invention, the driving assembly includes a driving member 10, and the driving member 10 is mounted on the transverse plate 15;

a first driving shaft 17, wherein one end of the first driving shaft 17 is connected with the driving part 10, and the other end of the first driving shaft 17 is connected with the transmission assembly;

and one end of the second driving shaft is connected with the driving part 10, the other end of the second driving shaft is connected with the transmission mechanism, and the driving part 10 is used for driving the first driving shaft 17 and the second driving shaft to rotate.

In this embodiment, the driving member 10 is installed on the transverse plate 15, one end of the first driving shaft 17 is connected to the driving member 10, the other end is connected to the transmission assembly, one end of the second driving shaft is connected to the driving member 10, the other end is connected to the transmission mechanism, the driving member 10 is used for driving the first driving shaft 17 and the second driving shaft to rotate, the specific structure of the driving member 10 is not limited, and in this embodiment, a dual-shaft motor is preferably used.

As an embodiment of the utility model, the transmission assembly comprises a driven shaft 7, one end of the driven shaft 7 is rotatably connected with a transverse plate 15, and the other end of the driven shaft 7 is fixedly connected with the sampling cylinder 6;

and a connecting unit 16, wherein one end of the connecting unit 16 is connected with the first driving shaft 17, and the other end of the connecting unit 16 is connected with the driven shaft 7.

In this embodiment, driven shaft 7 one end is rotated with diaphragm 15 and is connected, the other end and sampling tube 6 fixed connection, coupling unit 16 one end and first drive shaft 17 are connected, and the other end is connected with driven shaft 7, and driving piece 10 drives first drive shaft 17 and rotates, and first drive shaft 17 passes through coupling unit 16 and drives driven shaft 7 and rotate, and driven shaft 7 drives the sampling tube 6 of being connected with it and rotates, and then the sampling tube 6 of being convenient for takes a sample.

In this embodiment, the connecting unit 16 may be a pulley set or a gear set, which is not specifically described herein.

As an embodiment of the utility model, the device further comprises a mounting groove, wherein the driven shaft 7 is of a cavity structure and is provided with the mounting groove;

the push plate 9 is slidably arranged in the sampling cylinder 6, and the push plate 9 is attached to the sampling cylinder 6;

and one end of the driving part 8 is connected with the push plate 9, and the other end of the driving part 8 is connected with the mounting groove and used for driving the push plate 9 to slide.

In this embodiment, driven shaft 7 is the cavity structure, and has seted up the mounting groove, push pedal 9 slidable mounting is in sampler barrel 6, and laminates with sampler barrel 6, 8 one end of driver part is connected with push pedal 9, and another is connected with the mounting groove for it slides to drive push pedal 9, needs to take out the soil in sampler barrel 6 after the sample finishes, drives push pedal 9 through driver part 8 this moment and slides, and then releases the soil of gathering in the sampler barrel 6, and is convenient high-efficient, has promoted the practicality of device.

In the present embodiment, the driving member 8 may be a cylinder or an electric push rod, and will not be described in detail.

As an embodiment of the present invention, the transmission mechanism includes a threaded rod 12, and the threaded rod 12 is rotatably connected to the mounting frame 2;

one end of the telescopic piece 11 is connected with the second driving shaft, and the other end of the telescopic piece 11 is connected with the threaded rod 12;

a threaded sleeve connected to the threaded rod 12 by a thread;

and one end of the limiting rod 13 is connected with the threaded sleeve, and the other end of the limiting rod 13 is connected with the transverse plate 15.

In this embodiment, threaded rod 12 rotates with mounting bracket 2 to be connected, 11 one end of extensible member is connected with the second drive shaft, and the other end is connected with threaded rod 12, the thread bush passes through the screw thread and is connected with threaded rod 12, gag lever post 13 one end is connected with the thread bush, and the other end is connected with diaphragm 15, and driving piece 10 drive second drive shaft rotates, and the second drive shaft passes through extensible member 11 and drives threaded rod 12 and rotate, and threaded rod 12 rotates and makes the connecting thread bush remove with it, and the thread bush drives diaphragm 15 downstream under gag lever post 13's the effect, and then drives sampler barrel 6 and to being close to the first removal in ground, and the sampler barrel 6 of being convenient for is better when taking a sample deep into in ground.

Further, the telescopic member 11 may be a telescopic sleeve or a telescopic rod, etc., and will not be described in detail herein.

The working principle of the utility model is as follows: when soil sampling is carried out, the device is moved to a designated position firstly, the driving part 10 drives the second driving shaft to rotate, the second driving shaft drives the threaded rod 12 to rotate through the telescopic part 11, the threaded rod 12 rotates to enable the threaded sleeve connected with the threaded rod to move, the threaded sleeve drives the transverse plate 15 to move downwards under the action of the limiting rod 13, and further drives the sampling cylinder 6 to move towards the ground first, so that the sampling cylinder 6 can better go deep into the ground when sampling is carried out, the driving part 10 drives the first driving shaft 17 to rotate, the first driving shaft 17 drives the driven shaft 7 to rotate through the connecting unit 16, the driven shaft 7 drives the sampling cylinder 6 connected with the driven shaft to rotate, and further the sampling cylinder 6 is convenient to sample, soil in the sampling cylinder 6 needs to be taken out after sampling is finished, at the moment, the driving part 8 drives the push plate 9 to slide, and further the soil collected in the sampling cylinder 6 is pushed out, convenient high-efficient, promoted the practicality of device.

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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The soil sampling device for environment detection comprises a supporting plate and a mounting frame, wherein the mounting frame is fixedly arranged on the supporting plate;

the driving assembly is arranged on the transverse plate;

a sampling tube;

one end of the transmission component is connected with the driving component, and the other end of the transmission component is connected with the sampling cylinder and is used for driving the sampling cylinder to rotate;

one end of the transmission mechanism is connected with the driving assembly, and the other end of the transmission mechanism is connected with the transverse plate and used for driving the transverse plate to be close to or far away from the ground;

a moving wheel mounted on the support plate.

2. The soil sampling device for environmental testing of claim 1, wherein the driving assembly comprises a driving member, the driving member is mounted on the cross plate;

one end of the first driving shaft is connected with the driving piece, and the other end of the first driving shaft is connected with the transmission assembly;

and one end of the second driving shaft is connected with the driving part, the other end of the second driving shaft is connected with the transmission mechanism, and the driving part is used for driving the first driving shaft and the second driving shaft to rotate.

3. The soil sampling device for environmental testing as recited in claim 2, wherein the transmission assembly comprises a driven shaft, one end of the driven shaft is rotatably connected with the transverse plate, and the other end of the driven shaft is fixedly connected with the sampling cylinder;

and one end of the connecting unit is connected with the first driving shaft, and the other end of the connecting unit is connected with the driven shaft.

4. The soil sampling device for environmental testing of claim 3, further comprising an installation groove, wherein the driven shaft is of a cavity structure and is provided with an installation groove;

the push plate is slidably arranged in the sampling cylinder and is attached to the sampling cylinder;

and one end of the driving part is connected with the push plate, and the other end of the driving part is connected with the mounting groove and used for driving the push plate to slide.

5. The soil sampling device for environmental testing of claim 2, wherein the transmission mechanism comprises a threaded rod, and the threaded rod is rotatably connected with the mounting frame;

one end of the telescopic piece is connected with the second driving shaft, and the other end of the telescopic piece is connected with the threaded rod;

the threaded sleeve is connected with the threaded rod through threads;

and one end of the limiting rod is connected with the threaded sleeve, and the other end of the limiting rod is connected with the transverse plate.

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