CN220508928U - Soil organic matter check out test set - Google Patents

Abstract

The utility model relates to the technical field related to soil organic matter detection and discloses soil organic matter detection equipment. According to the utility model, the purpose of arranging detection equipment on the soil surface can be ensured through the arrangement of the mounting frame body and the protective groove, the purpose of rapidly sampling the soil is achieved through the extension of the sampling pipe section into the soil, the sampled soil components can be directly transmitted into the detection part for real-time detection, the purpose of sampling the soil with different layers of thickness can be achieved through the arrangement of the driving part, the purpose of adapting to different detection requirements is achieved, and the purpose of enabling the whole detection process to be carried out in a relatively stable environment can be achieved through the arrangement of the protective groove.

Description

Soil organic matter check out test set

Technical Field

The utility model relates to the technical field related to soil organic matter detection, in particular to soil organic matter detection equipment.

Background

The composition of the soil is very complex, including minerals and organic matters generated after the decay of animal and plant residues, and the substances generated after the oxidation-reduction reaction of the atmosphere are often needed to be detected in order to improve the yield of agricultural products.

Most of the existing soil component detection equipment detects soil by sending soil samples to an indoor laboratory for detection, the period is long, detection results cannot be known in real time, the detection efficiency is not good, corresponding indication and judgment cannot be timely made in a fertilization link, and in order to solve the problems, the soil organic matter detection equipment is provided.

Disclosure of Invention

The utility model aims to solve the technical problems that: the method solves the problems that most of the existing soil component detection equipment is long in detection period and is not beneficial to obtaining detection results in real time; in order to overcome the problems presented above, a soil organic matter detection device is provided which solves the problems presented above.

The utility model solves the technical problems by adopting the following technical scheme:

the utility model provides a soil organic matter check out test set, is including being used for installing at subaerial mounting bracket body, the shield groove has been seted up in the mounting bracket body, the shield inslot slides from top to bottom and is equipped with the sampling pipeline section that is used for carrying out the sample to moisture in the soil, the bottom downwardly extending of sampling pipeline section to the outside of the mounting bracket body, just the upside of sampling pipeline section is equipped with the detecting element that is used for detecting moisture in the soil, one side of sampling pipeline section is equipped with the driving piece, the driving piece is including locating drive cylinder on the shield groove diapire, be equipped with spacing slide on drive cylinder's the output, spacing slide is located on the middle section periphery of sampling pipeline section.

Preferably, the detection piece is including locating the soil component detector of mounting bracket body both sides, soil component detector with be connected with between the sample tube section and send the appearance pipeline section, send the appearance pipeline section to have ductility.

Preferably, the top of the mounting frame body is provided with a protective baffle plate for shielding rain, and the soil component detector is arranged at the bottom of the protective baffle plate.

Preferably, the top of the protective baffle is provided with a support column, the top of the support column is rotatably provided with a swing rod, and one end of the swing rod is provided with a solar panel.

Preferably, the bottom of the mounting frame body is provided with a mounting base, and the mounting base and the mounting frame body are integrally arranged.

Preferably, a plurality of screws used for being in bolted connection with an external connecting structure are arranged in the mounting base.

The utility model has the advantages and positive effects that: the setting through the mounting bracket body and the shield groove can guarantee to set up the purpose of check out test set at the soil surface to reach the purpose of taking a sample fast to soil in stretching into soil through the sample pipeline section, and the soil component after the sample can directly transmit to the detection in carrying out real-time detection, and can reach the purpose of realizing taking a sample to the soil on the different level thickness through the setting of driving piece, reached and to adapt to different detection demands, and can reach the purpose that makes whole testing process be in one relatively stable environment and carry out through the setting of shield groove.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of FIG. 1;

the index marks in the drawings are as follows:

1. a mounting frame body; 11. a protective groove; 12. a driving cylinder; 13. a mounting base; 131. a screw; 14. a protective baffle; 141. a support column; 15. a solar panel; 151. swing rod;

2. sampling a pipe section; 21. a limit sliding block;

3. a detecting member; 31. a soil component detector; 32. and (5) feeding the sample tube section.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.

Embodiments of the utility model are described in further detail below with reference to the attached drawing figures:

referring to fig. 1 and 2, the composition of the soil is very complex, including minerals, organic matters produced after the animal and plant residues decay, the substances produced after oxidation-reduction reaction of the atmosphere, in order to improve the yield of agricultural products, often need to detect the soil, most of existing soil composition detection devices detect the soil by sending the soil sample into the laboratory, the period is long and the detection result cannot be known in real time, it is unfavorable to provide the efficiency of detection, on the fertilization link, the corresponding indication and judgment cannot be made in time, in order to solve such problems, a soil organic matter detection device is proposed, including a mounting frame body 1 for being mounted on the ground, a protective slot 11 is provided in the mounting frame body 1, a sampling tube section 2 for sampling the moisture in the soil is provided in a sliding manner in the protective slot 11, the bottom of the sampling tube section 2 extends downwards to the outer side of the mounting frame body 1, a detection member 3 for detecting the moisture in the soil is provided on the upper side of the sampling tube section 2, a driving member is provided on one side of the sampling tube section 2, the driving member comprises a driving tube section 21 provided on the driving tube section 12 and a driving tube section 12 is provided on the periphery of the driving cylinder 12; the purpose of setting up check out test set at soil surface can be guaranteed through the setting up of mounting bracket body 1 and shield groove 11 to reach the purpose of taking a sample fast to soil in stretching into soil through sampling pipe section 2, and the soil component after the sample can directly transmit to detecting part 3 in carrying out real-time detection, and can reach the purpose of realizing taking a sample to soil on the different level thickness through the setting up of driving piece, reached and to adapt to different detection demands, and can reach the purpose that makes whole testing process be in one relatively stable environment and go on through the setting up of shield groove 11.

It should be noted that, when not detecting, the sampling pipe section 2 is located in the protection groove 11 for holding, and the installation frame body 1 is stably installed on the ground to ensure that the installation frame body plays a relatively striking state, so that the purpose of preventing the damage of the whole detection equipment can be achieved.

Further, in order to ensure the stability of the installation frame body 1, in this embodiment, an installation base 13 is provided at the bottom of the installation frame body 1, and the installation base 13 and the installation frame body 1 are integrally provided; the purpose of enabling the mounting frame body 1 to be arranged more stably can be achieved through the arrangement of the mounting base 13.

It should be further noted that, the lower side of the mounting base 13 is further provided with a fixing seat erected in the ground, wherein the fixing seat is fixed with the mounting base 13 through a bolt, and when the mounting base 13 is fixed, the mounting frame body 1 is in a relatively stable state at this time, so that the whole detection process is orderly performed.

It should be noted that, after the installation, the bottom of the installation frame body 1 is in direct contact with the ground, and the installation frame body 1 can be installed on the bank of a farmland or at some positions capable of more accurately reflecting the current soil components, and the purpose of detecting the organic matters in the soil components can be realized in the detection of the soil components.

Referring to fig. 1 and 2, the specific structure of the detecting member 3 is as follows: the detecting piece 3 comprises soil component detectors 31 arranged at two sides of the mounting frame body 1, a sample feeding pipe section 32 is connected between the soil component detectors 31 and the sample taking pipe section 2, and the sample feeding pipe section 32 has ductility; the sampling pipe section 2 and the soil component detector 31 can be connected through the arrangement of the pipe conveying section 32, when the sampling pipe section 2 stretches into the soil, the head of the sampling pipe section can absorb the moisture in the soil to a certain extent and convey the moisture upwards into the pipe conveying section 32 until the moisture enters the soil component detector, and the power source in the conveying process can be a plurality of power sources, such as an air pump and the like, and is not repeated here.

It should be noted that the above-mentioned tube section 32 has ductility, and particularly, when the tube section 2 slides downward, in order to ensure that the tube section 32 slides synchronously with the tube section 2, the tube section 32 needs to be deformed to some extent, and the ductility may be determined according to the characteristics of the material.

Further, in order to ensure the safety of the detection device in the outcrop environment, in this embodiment, a protection baffle 14 for shielding rain is disposed on the top of the mounting frame body 1, and the soil component detector 31 is disposed on the bottom of the protection baffle 14; the soil component detector 31 can be partially shielded from wind and rain by the arrangement of the protective baffle 14, so that the purpose of protection is achieved.

It should be further noted that, in order to ensure that the whole detection device can satisfy the self-sufficient power supply, in this embodiment, a support column 141 is provided at the top of the protection baffle 14, a swing rod 151 is rotatably provided at the top of the support column 141, and a solar panel 15 is provided at one end of the swing rod 151; the purpose of charging through solar energy can be achieved through the arrangement of the solar panel 15, and the purpose of energy conservation is achieved.

In addition, a certain amount of damping is further provided between the swing rod 151 and the support column 141 to ensure that relatively large friction is provided therebetween, thereby ensuring that the swing rod 151 does not randomly deviate in position.

It should be emphasized that the examples described herein are illustrative rather than limiting, and therefore the utility model is not limited to the examples described in the detailed description, but rather falls within the scope of the utility model as defined by other embodiments derived from the technical solutions of the utility model by those skilled in the art.

Claims (6)

1. Soil organic matter check out test set, including being used for installing at subaerial mounting bracket body (1), its characterized in that: the utility model discloses a soil sampling device, including a mounting bracket body (1), a protection groove (11) has been seted up in the mounting bracket body (1), the upper and lower slip in protection groove (11) is equipped with sample pipeline section (2) that are used for taking a sample to moisture in the soil, the bottom downwardly extending of sample pipeline section (2) to the outside of mounting bracket body (1), just the upside of sample pipeline section (2) is equipped with and is used for detecting piece (3) to moisture in the soil, one side of sample pipeline section (2) is equipped with the driving piece, the driving piece is including locating drive cylinder (12) on protection groove (11) diapire, be equipped with spacing slide (21) on the output of drive cylinder (12), spacing slide (21) are located on the middle section periphery of sample pipeline section (2).

2. A soil organic matter detecting apparatus according to claim 1, wherein: the detection piece (3) comprises soil component detectors (31) arranged on two sides of the mounting frame body (1), sample feeding tube sections (32) are connected between the soil component detectors (31) and the sampling tube sections (2), and the sample feeding tube sections (32) have ductility.

3. A soil organic matter detecting apparatus according to claim 2, wherein: the top of the mounting frame body (1) is provided with a protective baffle (14) for shielding rain, and the soil component detector (31) is arranged at the bottom of the protective baffle (14).

4. A soil organic matter detecting apparatus according to claim 3, wherein: the top of protection baffle (14) is equipped with support column (141), the top rotation of support column (141) is equipped with pendulum rod (151), be equipped with solar panel (15) on the one end of pendulum rod (151).

5. A soil organic matter detecting apparatus according to claim 1, wherein: the bottom of the mounting frame body (1) is provided with a mounting base (13), and the mounting base (13) and the mounting frame body (1) are integrally arranged.

6. The soil organic matter detecting apparatus according to claim 5, wherein: a plurality of bolts (131) for being connected with an external connecting structure through bolts are arranged in the mounting base (13).