CN219064581U - Parameter integrated measuring sensor - Google Patents
Parameter integrated measuring sensor Download PDFInfo
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- CN219064581U CN219064581U CN202223481243.0U CN202223481243U CN219064581U CN 219064581 U CN219064581 U CN 219064581U CN 202223481243 U CN202223481243 U CN 202223481243U CN 219064581 U CN219064581 U CN 219064581U
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Abstract
The parameter integrated measuring sensor comprises an illumination ball induction cover, an upper shell and a lower shell, wherein the top of the upper shell is connected with the illumination ball induction cover, and the bottom of the upper shell is connected with the lower shell; an illumination sensor is arranged in the illumination ball sensing cover; an upper collecting plate is arranged in the upper shell; a collection equipment control main board and a wireless communication module are arranged in a cavity of the lower shell; the rechargeable battery is arranged in the cavity of the lower shell, the lower shell is internally provided with a bottom acquisition plate, the bottom surface of the bottom acquisition plate is connected with a plurality of vertically arranged sensor probes, and the sensor probes penetrate through the lower shell downwards; the inside of upper portion casing is linked together with the inside of lower part casing, be equipped with sensor air vent and type-c interface that charges on the lateral wall of upper portion casing. The device has the advantages of compact structure and reasonable layout, and can synchronously monitor soil temperature, soil humidity, soil fertility, air temperature, air humidity, carbon dioxide parameters and illumination information.
Description
Technical Field
The utility model relates to the technical field of agricultural sensors, in particular to a parameter integrated measuring sensor.
Background
Along with development of science and technology, accurate agriculture is gradually paid attention to in modern agriculture, and the accurate agricultural technology is to adjust the input of crops according to the spatial difference of soil fertility and crop growth conditions, and on the basis of quantitative real-time diagnosis of crop growth vigor and full understanding of spatial variation of field productivity, the aim of improving yield is achieved, positioning and quantitative accurate field management is implemented, and the sustainable development aim of efficiently utilizing various agricultural resources and improving environment is achieved. The implementation of accurate agriculture can not only furthest improve the agricultural productivity, but also realize the goals of high quality, high yield, low consumption and environmental protection of sustainable development of agriculture.
Real-time collection of agricultural information is a primary precondition in precision agriculture, and this process is usually implemented by means of sensor technology. During crop planting, it is often necessary to measure key factors such as ambient light, soil temperature, soil humidity, soil fertility, ambient temperature, ambient humidity and ambient weather conditions, but the agricultural sensor on the market at present can only measure one to two parameters, which will increase inaccuracy of agricultural condition information feedback and further cannot realize accurate management of crops.
Disclosure of Invention
In view of the above, the present utility model provides a parameter integrated measurement sensor, which has a compact structure and a reasonable layout, so as to solve the above problems.
The parameter integrated measuring sensor comprises an illumination ball induction cover, an upper shell and a lower shell, wherein the top of the upper shell is connected with the illumination ball induction cover, and the bottom of the upper shell is connected with the lower shell; an illumination sensor is arranged in the illumination ball sensing cover; an upper collecting plate is arranged in the upper shell; a collection equipment control main board and a wireless communication module are arranged in a cavity of the lower shell; the rechargeable battery is arranged in the cavity of the lower shell, the lower shell is internally provided with a bottom acquisition plate, the bottom surface of the bottom acquisition plate is connected with a plurality of vertically arranged sensor probes, and the sensor probes penetrate through the lower shell downwards; the rechargeable battery is connected with the acquisition equipment control main board, the wireless communication module and the bottom acquisition board, and the acquisition equipment control main board is also connected with the wireless communication module and the bottom acquisition board; the inside of the upper shell is communicated with the inside of the lower shell, and the upper acquisition board is connected with the rechargeable battery and the acquisition equipment control main board; the sensor vent and the type-c charging interface are arranged on the side wall of the upper shell, and the type-c charging interface is connected with the upper collecting plate.
Further, the upper collection plate is horizontally disposed at an upper portion within the upper housing.
Further, the acquisition equipment control main board and the wireless communication module are vertically arranged.
Further, the rechargeable battery is located between the acquisition device control main board and the wireless communication module.
Further, the bottom collection plate is horizontally disposed at the bottom of the lower housing.
Further, the number of the sensor probes is 3.
Further, a signal antenna is adhered to the inner wall of the lower housing 3, and the signal antenna is connected with the wireless communication module.
Compared with the prior art, the parameter integrated measuring sensor comprises an illumination ball induction cover, an upper shell and a lower shell, wherein the top of the upper shell is connected with the illumination ball induction cover, and the bottom of the upper shell is connected with the lower shell; an illumination sensor is arranged in the illumination ball sensing cover; an upper collecting plate is arranged in the upper shell; a collection equipment control main board and a wireless communication module are arranged in a cavity of the lower shell; the rechargeable battery is arranged in the cavity of the lower shell, the lower shell is internally provided with a bottom acquisition plate, the bottom surface of the bottom acquisition plate is connected with a plurality of vertically arranged sensor probes, and the sensor probes penetrate through the lower shell downwards; the rechargeable battery is connected with the acquisition equipment control main board, the wireless communication module and the bottom acquisition board, and the acquisition equipment control main board is also connected with the wireless communication module and the bottom acquisition board; the inside of the upper shell is communicated with the inside of the lower shell, and the upper acquisition board is connected with the rechargeable battery and the acquisition equipment control main board; the sensor vent and the type-c charging interface are arranged on the side wall of the upper shell, and the type-c charging interface is connected with the upper collecting plate. The intelligent soil monitoring system has the advantages of compact structure and reasonable layout, can synchronously monitor soil temperature, soil humidity, soil fertility, air temperature, air humidity, carbon dioxide parameters and illumination information, is integrated, can monitor soil and seven key parameters of the environment in real time, monitors for 24 hours in all weather, does not need wiring and net migration, and is used after soil insertion. Meanwhile, the growth state and the harvest condition are analyzed and predicted by gathering meteorological information and the like through the Internet of things. Farmers can optimize production management in time according to the method, and adjust the temperature, irrigation water, pesticide usage amount and the like. The system pre-warns extreme weather conditions in advance, facilitates farmers to take preventive measures, achieves early discovery and early solution, and furthest reduces the influence of natural disasters on traditional agriculture.
Drawings
Embodiments of the utility model are described below with reference to the accompanying drawings, in which:
fig. 1 is a schematic structural diagram of a parameter integrated measurement sensor provided by the utility model.
Fig. 2 is a schematic partial view of a parameter-integrated measurement sensor according to the present utility model.
Detailed Description
Specific embodiments of the present utility model will be described in further detail below based on the drawings. It should be understood that the description herein of the embodiments of the utility model is not intended to limit the scope of the utility model.
Referring to fig. 1 and 2, the parameter integrated measuring sensor provided by the utility model comprises an illumination ball induction cover 1, an upper shell 2 and a lower shell 3, wherein the top of the upper shell 2 is in snap connection with the illumination ball induction cover 1, and the bottom of the upper shell 2 is in snap connection with the lower shell 3.
An illumination sensor is arranged in the illumination ball induction cover 1.
An upper collecting plate 4 is horizontally installed at an upper portion in the upper housing 2.
An acquisition equipment control main board 5 and a wireless communication module 6 are vertically arranged in the cavity of the lower shell 3, and the wireless communication module 6 is specifically a 4G/NB-NOT module; a rechargeable battery 7 is installed in the cavity of lower casing 3 and is located between collection equipment control mainboard 5 and wireless communication module 6, bottom horizontal installation of lower casing 3 has bottom collection board 8, and the bottom surface of showing bottom collection board 8 links to each other with a plurality of vertical sensor probe 9 that set up, and a plurality of sensor probe 9 pass lower casing 3 downwards. The structure is compact, the wiring is convenient, and the maintenance is convenient. The number of sensor probes 9 is preferably 3.
The rechargeable battery 7 is connected with the acquisition equipment control main board 5, the wireless communication module 6 and the bottom acquisition board 8 and is used for supplying power to the three; the acquisition equipment control main board 5 is also connected with the wireless communication module 6 and the bottom acquisition board 8.
The inside of upper casing 2 is linked together with the inside of lower casing 3, and upper collection board 4 is all connected with rechargeable battery 7 and collection equipment control mainboard 5.
A sensor vent 21 and a type-c charging interface 22 are provided on the side wall of the upper housing 2. The sensor vent hole 21 is used for radiating heat of each electronic component in the upper shell 2 and the lower shell 3, and can allow air to enter the upper shell 2 and the lower shell 3, so that data of air or illumination can be collected conveniently; the type-c charging interface 22 is connected with the upper collecting board 4, and can charge the rechargeable battery 7 after being connected with an external power supply.
A signal antenna 10 is further adhered to the inner wall of the lower housing 3, and the signal antenna 10 is connected to the wireless communication module 6, as shown in fig. 2.
The specific working process and principle of the parameter integrated measuring sensor are as follows:
the sensor probe 9 of the parameter integrated measuring sensor is downward and inserted into soil, when light passes through the light ball sensing cover 1 and air passes through the sensor vent hole 21, the upper collecting plate 4 arranged between the light ball sensing cover 1 and the sensor vent hole 21 can collect light intensity, carbon dioxide parameters, air temperature and air temperature data; when three sensor probes 9 fixed on the bottom collecting plate 8 are inserted into soil, the sensor probes 9 detect soil humidity by using a frequency domain reflection method, the sensor probes 9 penetrate into the 6cm position of the soil to monitor soil temperature, soil fertility is measured by ion monitoring, and then the bottom collecting plate 8 collects the soil temperature, humidity and fertility by means of the sensor probes 9; then the upper acquisition 4 and the bottom acquisition board 8 feed data back to the acquisition equipment control main board 5, and the acquisition equipment control main board 5 controls the acquisition of a sensor so as to ensure the accuracy of the data; the wireless communication module 6 and the signal antenna 10 are in wireless communication with external equipment, data acquired by the acquisition equipment control main board 5 are sent to the user terminal, the Internet of things is realized, local weather and real-time data can be analyzed in the background, more accurate early warning and reminding can be performed, judgment can be made in advance, environmental change is prevented, and environmental influence is reduced.
Compared with the prior art, the parameter integrated measuring sensor comprises an illumination ball induction cover 1, an upper shell 2 and a lower shell 3, wherein the top of the upper shell 2 is connected with the illumination ball induction cover 1, and the bottom of the upper shell 2 is connected with the lower shell 3; an illumination sensor is arranged in the illumination ball induction cover 1; an upper collecting plate 4 is arranged in the upper shell 2; a collection equipment control main board 5 and a wireless communication module 6 are arranged in the cavity of the lower shell 3; a rechargeable battery 7 is arranged in the cavity of the lower shell 3, a bottom collecting plate 8 is arranged at the bottom of the lower shell 3, the bottom surface of the bottom collecting plate 8 is connected with a plurality of vertically arranged sensor probes 9, and the sensor probes 9 penetrate through the lower shell 3 downwards; the rechargeable battery 7 is connected with the acquisition equipment control main board 5, the wireless communication module 6 and the bottom acquisition board 8, and the acquisition equipment control main board 5 is also connected with the wireless communication module 6 and the bottom acquisition board 8; the inside of the upper shell 2 is communicated with the inside of the lower shell 3, and the upper acquisition board 4 is connected with the rechargeable battery 7 and the acquisition equipment control main board 5; a sensor vent 21 and a type-c charging interface 22 are arranged on the side wall of the upper shell 2, and the type-c charging interface 22 is connected with the upper collecting plate 4. The intelligent soil monitoring system has the advantages of compact structure and reasonable layout, can synchronously monitor soil temperature, soil humidity, soil fertility, air temperature, air humidity, carbon dioxide parameters and illumination information, is integrated, can monitor soil and seven key parameters of the environment in real time, monitors for 24 hours in all weather, does not need wiring and net migration, and is used after soil insertion. Meanwhile, the growth state and the harvest condition are analyzed and predicted by gathering meteorological information and the like through the Internet of things. Farmers can optimize production management in time according to the method, and adjust the temperature, irrigation water, pesticide usage amount and the like. The system pre-warns extreme weather conditions in advance, facilitates farmers to take preventive measures, achieves early discovery and early solution, and furthest reduces the influence of natural disasters on traditional agriculture.
The above is only a preferred embodiment of the present utility model and is not intended to limit the scope of the present utility model, and any modifications, equivalent substitutions or improvements within the spirit of the present utility model are intended to be covered by the claims of the present utility model.
Claims (7)
1. A parameter integration measuring sensor which is characterized in that: the device comprises an illumination ball induction cover, an upper shell and a lower shell, wherein the top of the upper shell is connected with the illumination ball induction cover, and the bottom of the upper shell is connected with the lower shell; an illumination sensor is arranged in the illumination ball sensing cover; an upper collecting plate is arranged in the upper shell; a collection equipment control main board and a wireless communication module are arranged in a cavity of the lower shell; the rechargeable battery is arranged in the cavity of the lower shell, the lower shell is internally provided with a bottom acquisition plate, the bottom surface of the bottom acquisition plate is connected with a plurality of vertically arranged sensor probes, and the sensor probes penetrate through the lower shell downwards; the rechargeable battery is connected with the acquisition equipment control main board, the wireless communication module and the bottom acquisition board, and the acquisition equipment control main board is also connected with the wireless communication module and the bottom acquisition board; the inside of the upper shell is communicated with the inside of the lower shell, and the upper acquisition board is connected with the rechargeable battery and the acquisition equipment control main board; the sensor vent and the type-c charging interface are arranged on the side wall of the upper shell, and the type-c charging interface is connected with the upper collecting plate.
2. The parameter-integrated measurement sensor of claim 1, wherein: the upper collecting plate is horizontally arranged at the upper part in the upper shell.
3. The parameter-integrated measurement sensor of claim 1, wherein: the acquisition equipment control main board and the wireless communication module are vertically arranged.
4. A parameter-integrated measurement sensor as set forth in claim 3, wherein: the rechargeable battery is positioned between the acquisition equipment control main board and the wireless communication module.
5. The parameter-integrated measurement sensor of claim 4, wherein: the bottom collecting plate is horizontally arranged at the bottom of the lower shell.
6. The parameter-integrated measurement sensor of claim 1, wherein: the number of sensor probes is 3.
7. The parameter-integrated measurement sensor of claim 1, wherein: and a signal antenna is also adhered to the inner wall of the lower shell, and the signal antenna is connected with the wireless communication module.
Priority Applications (1)
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CN202223481243.0U CN219064581U (en) | 2022-12-26 | 2022-12-26 | Parameter integrated measuring sensor |
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CN202223481243.0U CN219064581U (en) | 2022-12-26 | 2022-12-26 | Parameter integrated measuring sensor |
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CN219064581U true CN219064581U (en) | 2023-05-23 |
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CN202223481243.0U Active CN219064581U (en) | 2022-12-26 | 2022-12-26 | Parameter integrated measuring sensor |
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2022
- 2022-12-26 CN CN202223481243.0U patent/CN219064581U/en active Active
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