CN213274372U - Tea garden soil and ambient temperature humidity data acquisition system - Google Patents

Abstract

The utility model provides a tea garden soil and ambient temperature humidity data acquisition system. This technical scheme adopts the solar panel power supply, need not external power supply, is fit for being fixed a position for a long time and carries out the collection of soil and environment humiture data in the tea garden scene. And, the utility model discloses abandoned whole scheme of embedding in the underground, other parts except that soil temperature humidity probe all bear on the support to overcome the problem that equipment corrodes problem and equipment is not convenient for take out. Furthermore, the utility model discloses simple structure, easily assembly, and can freely height-adjusting and orientation, therefore convenient to use, practicality are strong. Through adopting the technical scheme, the utility model discloses can directly install in open air according to different tea garden environment, provide scientific data for high-efficient management tea garden through automatic data acquisition, also improve work efficiency and reduce the recruitment cost simultaneously.

Description

Tea garden soil and ambient temperature humidity data acquisition system

Technical Field

The utility model relates to an agricultural field data acquisition technical field, concretely relates to tea garden soil and ambient temperature humidity data acquisition system.

Background

In the scientific management and production process of the tea garden, environmental factors such as illumination, air and CO₂Indexes such as concentration, temperature, humidity and soil pH have important influence on the quality of the tea leaves, and particularly the temperature and the humidity of the soil environment are one of key factors influencing the quality of the tea leaves.

Because the difference between the environmental temperature and the humidity of the soil at different altitudes is large, the long-term manual monitoring cost is high, and the error of local meteorological monitoring data in a local area is large, so that the specific situation of the growth environment of the tea garden is not reflected sufficiently, and the adoption of the sensing probe for long-term monitoring of the environmental temperature and the humidity of the soil is one of effective ways.

However, the data storage of the probe needs an external power supply, and under the complex growing environment of the mountain tea garden, the construction cost for installing the power equipment and the circuit thereof is high, and potential safety hazards exist. In this case, if a data acquisition system that supplies power using solar energy can be developed, it is expected that installation and maintenance costs of the power supply apparatus will be saved. In addition, traditional soil environment temperature and humidity data acquisition sensing probe buries the parcel in soil with data storage equipment together, not only has the corruption risk, and the process of taking out equipment and changing the battery is loaded down with trivial details moreover, inconvenient practical application.

Disclosure of Invention

The utility model discloses aim at providing a tea garden soil and ambient temperature humidity data acquisition system to prior art's technical defect to solve conventional data acquisition system and need be equipped with the technical problem of power supply unit and power supply line.

The utility model discloses another technical problem that solve is, the whole embedding of conventional data acquisition system is in soil, consequently has the corrosion risk and is not convenient for take out.

The to-be-solved technical problem of the utility model is how to develop a temperature and humidity data acquisition system that can be positioned at the tea garden scene for a long time.

In order to realize the technical purpose, the utility model adopts the following technical scheme:

a tea garden soil and environment temperature and humidity data acquisition system comprises a cross foot, a stainless steel sleeve, a stainless steel bracket, a jackscrew, a plate frame, a solar panel, a rain shelter box, a control memory, a threading hole, a soil temperature and humidity probe and an environment temperature and humidity probe, wherein the cross foot is fixed on the ground, the stainless steel sleeve is fixedly connected onto the cross foot, the stainless steel bracket is inserted into the stainless steel sleeve, the jackscrew is connected onto the lateral end of the stainless steel sleeve and is propped against the stainless steel bracket, the plate frame is fixedly connected onto the stainless steel bracket, the solar panel is arranged on the plate frame, the rain shelter box is fixedly connected onto the stainless steel bracket, the control memory is arranged in the rain shelter box, the threading hole is arranged at the bottom end of the rain shelter box, the upper end of a data line is connected onto the control memory, the lower end of the data line penetrates out of the rain shelter box through the threading hole, and the number of the data lines, the data lines are respectively connected to the soil temperature and humidity probe, the environment temperature and humidity probe and the solar panel, and the soil temperature and humidity probe is embedded in soil.

Preferably, the outer side of the rain shelter box is provided with a clamping ring, and the rain shelter box is clamped and fixed with the stainless steel bracket through the clamping ring.

Preferably, the cross foot comprises two perpendicular straight arms, the length of which is 20 cm.

Preferably, the stainless steel support is in the shape of a cuboid or a cylinder, the side length of the cuboid is 30-50 mm, and the diameter of the cylinder is 30-50 mm: the height of the top end of the stainless steel support is 1-1.5 m.

Preferably, the plate frame is made of stainless steel.

Preferably, the solar panels have a length and width of 20cm and 10cm, respectively.

Preferably, the data line has a length of 10cm to 2m, and a waterproof material is coated outside the data line.

Preferably, the soil temperature and humidity probe is embedded in the soil plough layer of the tea garden, and the embedding depth is 20-40 cm.

Preferably, the stainless steel bracket 2/3 is connected to the plate frame, and the stainless steel bracket 1/2 is connected to the rain shelter.

Preferably, the rain shelter is also made of stainless steel. The size range of the plate frame is customized according to the diameter of the stainless steel support, and the size of the rain shelter box is customized according to the size of the control storage.

Preferably, the length and width of the control memory are 20cm and 10cm, respectively; the shell of the control memory is a semi-closed waterproof box.

In the technical scheme, the control storage, the solar panel, the data line, the soil temperature and humidity probe and the environment temperature and humidity probe are all conventional and commercially available products. The ambient temperature and humidity probe is maintained in a natural space environment. The stainless steel support is adjustable type, and height-adjustable festival, but the angle free plane is rotatory, guarantees that solar panel can fully receive the illumination, improves power supply efficiency. The rain-shielding box is used for accommodating and controlling the storage device, the threading hole is mainly used for the data line to penetrate through, and the clamping ring is used for connecting and fixing the rain-shielding box and the stainless steel bracket.

The utility model provides a tea garden soil and ambient temperature humidity data acquisition system. This technical scheme adopts the solar panel power supply, need not external power supply, is fit for being fixed a position for a long time and carries out the collection of soil and environment humiture data in the tea garden scene. And, the utility model discloses abandoned whole scheme of embedding in the underground, other parts except that soil temperature humidity probe all bear on the support to overcome the problem that equipment corrodes problem and equipment is not convenient for take out. Furthermore, the utility model discloses simple structure, easily assembly, and can freely height-adjusting and orientation, therefore convenient to use, practicality are strong.

Through adopting the technical scheme, the utility model discloses can directly install in open air according to different tea garden environment, provide scientific data for high-efficient management tea garden through automatic data acquisition, also improve work efficiency and reduce the recruitment cost simultaneously.

Drawings

Fig. 1 is a schematic structural view of the whole of the present invention;

FIG. 2 is a schematic structural view of a cross foot according to the present invention;

FIG. 3 is a schematic view of the rain shelter box of the present invention;

in the figure:

1. cross foot 2, stainless steel sleeve 3, stainless steel support 4, jackscrew

5. Grillage 6, solar panel 7, rain shelter box 8, control memory

9. A threading hole 10, a soil temperature and humidity probe 11, an environment temperature and humidity probe 12 and a snap ring.

Detailed Description

The following will describe in detail specific embodiments of the present invention. Well-known structures or functions may not be described in detail in the following embodiments in order to avoid unnecessarily obscuring the details. Approximating language, as used herein in the following examples, may be applied to identify quantitative representations that could permissibly vary in number without resulting in a change in the basic function. Unless defined otherwise, technical and scientific terms used in the following examples have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Example 1

A tea garden soil and environment temperature and humidity data acquisition system comprises a cross foot 1, a stainless steel sleeve 2, a stainless steel bracket 3, a jackscrew 4, a plate frame 5, a solar panel 6, a rain shelter box 7, a control memory 8, a threading hole 9, a soil temperature and humidity probe 10 and an environment temperature and humidity probe 11, wherein the cross foot 1 is fixed on the ground, the stainless steel sleeve 2 is fixedly connected on the cross foot 1, the stainless steel bracket 3 is inserted in the stainless steel sleeve 2, the jackscrew 4 is connected with the side end of the stainless steel sleeve 2, the jackscrew 4 is pressed on the stainless steel bracket 3, the plate frame 5 is fixedly connected on the stainless steel bracket 3, the solar panel 6 is arranged on the plate frame 5, the rain shelter box 7 is fixedly connected on the stainless steel bracket 3, the control memory 8 is arranged in the rain shelter box 7, the threading hole 9 is arranged at the bottom end of the rain shelter box 7, the upper end of data line is connected on control memory 8, and the lower extreme of data line wears out rain-proof box 7 via through wires hole 9, and the data line has a plurality of, and a plurality of data lines are connected to soil temperature humidity probe 10, ambient temperature humidity probe 11, solar panel 6 respectively, and soil temperature humidity probe 10 buries in soil.

Example 2

A tea garden soil and environment temperature and humidity data acquisition system comprises a cross foot 1, a stainless steel sleeve 2, a stainless steel bracket 3, a jackscrew 4, a plate frame 5, a solar panel 6, a rain shelter box 7, a control memory 8, a threading hole 9, a soil temperature and humidity probe 10 and an environment temperature and humidity probe 11, wherein the cross foot 1 is fixed on the ground, the stainless steel sleeve 2 is fixedly connected on the cross foot 1, the stainless steel bracket 3 is inserted in the stainless steel sleeve 2, the jackscrew 4 is connected with the side end of the stainless steel sleeve 2, the jackscrew 4 is pressed on the stainless steel bracket 3, the plate frame 5 is fixedly connected on the stainless steel bracket 3, the solar panel 6 is arranged on the plate frame 5, the rain shelter box 7 is fixedly connected on the stainless steel bracket 3, the control memory 8 is arranged in the rain shelter box 7, the threading hole 9 is arranged at the bottom end of the rain shelter box 7, the upper end of data line is connected on control memory 8, and the lower extreme of data line wears out rain-proof box 7 via through wires hole 9, and the data line has a plurality of, and a plurality of data lines are connected to soil temperature humidity probe 10, ambient temperature humidity probe 11, solar panel 6 respectively, and soil temperature humidity probe 10 buries in soil.

Wherein, the outer side of the rain shelter box 7 is provided with a snap ring 12, and the rain shelter box 7 is clamped and fixed with the stainless steel bracket 3 through the snap ring 12. The cross foot 1 comprises two perpendicular straight arms, the length of which is 20 cm. The stainless steel support 3 is in a cuboid or cylinder shape, the side length of the cuboid is 30-50 mm, and the diameter of the cylinder is 30-50 mm; the height of the top end of the stainless steel support 3 is 1-1.5 m. The plate frame 5 is made of stainless steel. The length and width of the solar panels 6 are 20cm and 10cm, respectively. The length of the data line is 10 cm-2 m, and a waterproof material is coated outside the data line. The soil temperature and humidity probe 10 is buried in a soil plough layer of the tea garden, and the burying depth is 20-40 cm.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention, and is not intended to limit the present invention. Any modification, equivalent replacement, and improvement made within the scope of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A tea garden soil and environment temperature and humidity data acquisition system is characterized by comprising a cross foot (1), a stainless steel sleeve (2), a stainless steel bracket (3), jackscrews (4), a plate frame (5), a solar panel (6), a rain-sheltering box (7), a control memory (8), a threading hole (9), a soil temperature and humidity probe (10) and an environment temperature and humidity probe (11), wherein the cross foot (1) is fixed on the ground, the stainless steel sleeve (2) is fixedly connected to the cross foot (1), the stainless steel bracket (3) is inserted in the stainless steel sleeve (2), the jackscrews (4) are connected to side ends of the stainless steel sleeve (2), the jackscrews (4) are jacked on the stainless steel bracket (3), the plate frame (5) is fixedly connected to the stainless steel bracket (3), the solar panel (6) is arranged on the plate frame (5), fixedly connected with box (7) of taking shelter from rain on stainless steel support (3), it has control memory (8) to embed in box (7) of taking shelter from rain, bottom at box (7) of taking shelter from rain has through wires hole (9), the upper end of data line is connected on control memory (8), the lower extreme of data line wears out box (7) of taking shelter from rain via through wires hole (9), the data line has a plurality of, a plurality of data lines are connected to soil temperature humidity probe (10) respectively, ambient temperature humidity probe (11), solar panel (6), soil temperature humidity probe (10) are buried in soil.

2. The tea garden soil and environment temperature and humidity data acquisition system according to claim 1, wherein a snap ring (12) is arranged on the outer side of the rain shelter box (7), and the rain shelter box (7) is clamped and fixed with the stainless steel bracket (3) through the snap ring (12).

3. A tea garden soil and environment temperature and humidity data acquisition system according to claim 1, characterized in that the cross foot (1) comprises two perpendicular straight arms, the length of which is 20 cm.

4. The tea garden soil and environment temperature and humidity data acquisition system according to claim 1, wherein the stainless steel support (3) is in the shape of a cuboid or a cylinder, the side length of the cuboid is 30-50 mm, and the diameter of the cylinder is 30-50 mm; the height of the top end of the stainless steel bracket (3) is 1-1.5 m.

5. The tea garden soil and environment temperature and humidity data acquisition system according to claim 1, wherein the plate frame (5) is made of stainless steel.

6. A tea garden soil and ambient temperature and humidity data acquisition system according to claim 1, wherein the solar panels (6) are 20cm and 10cm in length and width respectively.

7. The tea garden soil and environment temperature and humidity data acquisition system as claimed in claim 1, wherein the data line is 10 cm-2 m long, and a waterproof material is coated outside the data line.

8. The tea garden soil and environment temperature and humidity data acquisition system according to claim 1, wherein the soil temperature and humidity probe (10) is embedded in a soil plough layer of the tea garden, and the embedding depth is 20-40 cm.

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