CN214583394U - Grassland ecological health perception field terminal - Google Patents

Abstract

The application provides a grassland ecological health perception field terminal, includes: a support structure; the detection structure is fixedly arranged on the supporting structure and used for acquiring grassland ecological health data; and the data processing structure is electrically connected with the detection structure and used for preprocessing the grassland ecological health data to obtain preprocessed data and sending the preprocessed data to a cloud. The ecological healthy perception field terminal in meadow that this application obtained through above-mentioned design utilizes the data processing structure can carry out the format conversion with the ecological healthy data in meadow that the detection structure acquireed, can send to the high in the clouds after the preliminary treatment such as compression, the staff only need follow the high in the clouds download can acquire data, high durability and convenient operation, and because the detection structure is in the region of predetermineeing on-the-spot meadow always, the detection structure can detect or detect in real time in the interval short time such as an hour, can ensure the timely grasp to the ecological healthy condition in meadow on open-air meadow.

Description

Grassland ecological health perception field terminal

Technical Field

The application relates to the grassland detection field, in particular to a grassland ecological health perception field terminal.

Background

Judge the ecological healthy condition to open-air meadow and need acquire the ecological healthy data of meadow on open-air meadow at first, because the ecological healthy data of meadow on open-air meadow constantly changes, the ecological healthy data of meadow on same piece of open-air meadow can be different in the time of difference, consequently need regularly acquire the ecological healthy data of meadow on open-air meadow to in time master the ecological healthy condition on open-air meadow. Among the correlation technique, adopt the staff to drive regularly or reach the grassland ecological health data in this predetermined region on foot to gather in the predetermined region of the open-air grassland of predetermineeing the region usually, this kind of form is wasted time and energy to be subject to the quantity of staff and the different distance of predetermineeing the region, it is lower to the update frequency of the grassland ecological health data of open-air grassland, is difficult to in time master the ecological health condition of open-air grassland.

SUMMERY OF THE UTILITY MODEL

The application provides a grassland ecological health perception field terminal, and aims to solve the problems in the prior art.

The application is realized as follows:

a grassland ecological health awareness field terminal, comprising: a support structure; the detection structure is fixedly arranged on the supporting structure and used for acquiring grassland ecological health data; and the data processing structure is electrically connected with the detection structure and used for preprocessing the grassland ecological health data to obtain preprocessed data and sending the preprocessed data to a cloud.

Further, the detection structure includes: at least one of a light detection assembly, a biological weather detection assembly and a soil detection assembly; wherein, the light detection subassembly is used for detecting the light condition of meadow, biological meteorological detection subassembly is used for detecting the biology and the meteorological condition of meadow, soil detection subassembly is used for detecting the soil condition of meadow.

Further, the light detection assembly includes: at least one of a camera and a multispectral sensor.

Further, the bioceorology detection assembly includes: at least one of an air temperature and humidity sensor, a net radiation sensor, a total radiation sensor, a short wave radiation sensor, a long wave radiation sensor, a rainfall sensor and a wind speed and direction sensor.

Further, the soil detection assembly includes: at least one of a soil temperature and humidity sensor and a soil heat flux sensor.

Further, the data processing structure comprises: the processing unit is used for preprocessing the grassland ecological health data to obtain preprocessed data; and the transmitting unit is electrically connected with the processing unit and used for transmitting the preprocessing data to a cloud end.

Furthermore, the transmitting unit is a 5G signal transmitting unit, and the 5G signal transmitting unit is used for transmitting the preprocessing data to a cloud end through a 5G signal.

Further, still include: and the power supply structure is electrically connected with the detection structure and the data processing structure and used for supplying power to the detection structure and the data processing structure.

Further, the power supply structure includes: the solar cell panel is fixedly arranged on the supporting structure; the storage battery is electrically connected with the solar cell panel, the detection structure and the data processing structure; the solar energy detection device is used for receiving and storing electric energy from the solar panel and supplying power to the detection structure and the data processing structure.

Further, still include: and the lightning protection structure is fixedly arranged on the supporting structure.

The beneficial effect of this application is: the ecological healthy perception field terminal in meadow that this application obtained through above-mentioned design includes: a supporting structure, a detection structure and a data processing structure, wherein the supporting structure can be fixedly arranged in a preset area of the field grassland, and both the detection structure and the data processing structure can be fixedly connected with the supporting structure, therefore, the supporting structure can provide support for the detection structure and the data processing structure, the detection structure can be used for acquiring grassland ecological health data in a preset area of the outdoor grassland, the data processing structure can be used for preprocessing the grassland ecological health data acquired by the detection structure such as format conversion, compression and the like and then transmitting the grassland ecological health data to the cloud end, workers can acquire the data only by downloading the data from the cloud end, the operation is convenient, and because the detection structure is in the region of predetermineeing of open-air meadow always, detect the structure and can detect or detect in short time such as one hour apart in real time, can ensure the timely grasp to the ecological health condition of meadow of open-air meadow.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a grassland ecological health perception field terminal provided by an embodiment of the present application.

Icon:

100-grassland ecological health perception field terminals; 110-a support structure; 121-a camera; 122-a multispectral sensor; 123-wind speed and direction sensor; 124-short wave radiation sensor; 125-long wave radiation sensor; 126-air temperature and humidity sensor; 127-rain sensor; 128-net radiation sensor; 129-total radiation sensor; 130-soil heat flux sensor; 131-a soil temperature and humidity sensor; 140-a power supply configuration; 150-data processing architecture.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application. Thus, the following detailed description of the embodiments of the present application, as presented in the figures, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

In the description of the present application, it is to be understood that the terms indicating an orientation or positional relationship are based on the orientation or positional relationship shown in the drawings only for the convenience of describing the present application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present application.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature may be directly on or under the second feature or may include both the first and second features being in direct contact, but also the first and second features being in contact via another feature between them, not being in direct contact. Also, the first feature being above, on or above the second feature includes the first feature being directly above and obliquely above the second feature, or merely means that the first feature is at a higher level than the second feature. A first feature that underlies, and underlies a second feature includes a first feature that is directly under and obliquely under a second feature, or simply means that the first feature is at a lesser level than the second feature.

Example one

As shown in fig. 1, the present embodiment provides a grassy ecological health awareness field terminal 100, and the grassy ecological health awareness field terminal 100 includes: support structure 110, detection structure, and data processing structure 150.

The supporting structure 110 is used for being fixedly installed in the preset region of the outdoor grassland, the preset region can be set to be a plurality of, under the condition that a plurality of preset regions are provided, the grassland ecological health perception field terminal 100 can also be set to be a plurality of, and the supporting structure 110 in each grassland ecological health perception field terminal 100 is fixedly arranged in the preset region of the corresponding outdoor grassland. In particular, the support structure 110 may be provided in the form of a rod, one end of which is inserted into the lawn to fix the support structure 110 and provide support for the portion of the test structure that acquires soil-related data of the lawn ecological health data; the rod-like shape, which protrudes from the lawn at the end opposite to the end, can provide support for the portion of the test structure that acquires data relating to light, air, climate, etc. of the ecological health data of the lawn. Moreover, the cross section of the rod-shaped structure is smaller under the condition of wind, so that the wind load applied to the rod-shaped structure is smaller, and the structural stability of the support structure 110 in the working state can be effectively guaranteed.

The detection structure is fixedly mounted on the support structure 110 and is used for acquiring grassland ecological health data. Specifically, the detection structure may be used for acquiring data related to soil in the grassland ecological health data, and may also be used for acquiring data related to light, air, climate and the like in the grassland ecological health data.

Specifically, the detection structure can collect grassland ecological health data in the preset area of the field grassland in real time, and can also collect the grassland ecological health data in the preset area of the field grassland at intervals of first preset time. Specifically, the first preset time may be 1h, 2h, 3h, and the like, and the first preset time may also be adjusted according to actual conditions, for example, in the preset range of the field grassland, the grassland ecological health data change faster, and the first preset time may be set to be shorter (for example, 1 to 3 h); within this preset range of the field grassland, the grassland ecological health data change slowly, and the first preset time can be set to be a longer time (e.g., 5-10 h).

The data processing structure 150 is electrically connected to the detection structure, and the data processing structure 150 is used for preprocessing the grassland ecological health data to obtain preprocessed data and sending the preprocessed data to the cloud. The data processing structure 150 can be fixedly mounted on the support structure 110, so that the support structure 110 can be used to provide support for the data processing structure 150, and the structural stability of the data processing structure 150 in the working state can be guaranteed. The preprocessing of the grass ecological health data by the data processing structure 150 may include formatting, compressing, etc. the grass ecological health data. Because the acquired structures of different data in the detection structure are different, the formats of the acquired different data may be different, and the data processing structure 150 can unify the formats of the different data into the same format through preprocessing, thereby facilitating subsequent operations; and the data is sent by compression, so that the flow used for sending the data can be ensured to be low, the sending speed is ensured, the safety of the compressed data is higher, and the authenticity of the data in the transmission process is ensured.

Specifically, under the condition that the detection structure collects grassland ecological health data in the preset area of the outdoor grassland in real time, the data processing structure 150 can upload the grassland ecological health data to the cloud in real time, so that researchers can timely acquire the grassland ecological health condition in the preset area of the outdoor grassland; the grassland ecological health data can also be uploaded to the cloud end at intervals of second preset time, and the second preset time can be 1h, 2h, 3h and the like. Under the condition that the grassland ecological health data in the preset region of the field grassland are collected at the first preset time of the detection structure interval, the data processing structure 150 can upload the grassland ecological health data to the cloud end at the third preset time interval, and the third preset time needs to be more than or equal to the first preset time, for example, under the condition that the first preset time is 2h, the third preset time can be 2h, 4h and the like.

The grassland ecological health perception field terminal 100 obtained by the above design includes: a support structure 110, a detection structure and a data processing structure 150, wherein the support structure 110 can be fixedly mounted in a predetermined area of the field lawn, and both the sensing structure and the data processing structure 150 may be fixedly attached to the support structure 110, therefore, the supporting structure 110 can provide support for the detection structure and the data processing structure 150, the detection structure can be used for acquiring grassland ecological health data in a preset area of the grassland in the open air, the data processing structure 150 can be used for preprocessing the grassland ecological health data acquired by the detection structure such as format conversion, compression and the like and then transmitting the grassland ecological health data to the cloud end, and workers can acquire the data only by downloading from the cloud end, so that the operation is convenient, and because the detection structure is in the region of predetermineeing of open-air meadow always, detect the structure and can detect or detect in short time such as one hour apart in real time, can ensure the timely grasp to the ecological health condition of meadow of open-air meadow.

In some embodiments of the present application, the detection structure may include: a light detection assembly that may be mounted on the support structure 110 in a position above the grass.

The light detection assembly is used for detecting the light condition in a preset area of the field grassland. In particular, the light detection component may include at least one of a camera 121 and a multispectral sensor 122. Utilize camera 121 to carry out the video shooting to the region of predetermineeing of open-air meadow in to obtain the video data in the region of predetermineeing of open-air meadow, the staff can carry out preliminary analysis to the meadow ecological health condition of open-air meadow according to video data. Multispectral data in a preset region of the field grassland can be acquired by the multispectral sensor 122, and staff can analyze the spectral condition of the grassland ecological health condition of the field grassland according to the multispectral data.

Specifically, the specific parameters of the camera 121 may be: the resolution is 1920 x 1080, the effective collection data range is 4mm-92mm and 23 times, and the horizontal and vertical turnover can be realized.

Specifically, the specific parameters of the multispectral sensor 122 may be: the model is ADC Micro, the effective data collection range is from 520nm visible light to 920nm near infrared, and the collection visual angle is 37.67 degrees horizontally and 28.75 degrees vertically.

In some embodiments of the present application, the detection structure may further comprise: a biocorological detection assembly that can be mounted to the support structure 110 in a position above the lawn.

The biological weather detection assembly is used for detecting biological and weather conditions in a preset area of the field grassland. In particular, the biological and meteorological monitoring assembly may include: at least one of an air temperature and humidity sensor 126, a net radiation sensor 128, a total radiation sensor 129, a short wave radiation sensor 124, a long wave radiation sensor 125, a rain sensor 127, a wind speed and direction sensor 123.

Utilize air temperature and humidity sensor 126 can acquire the air temperature and humidity data in the preset area of open-air meadow, and the staff can carry out the analysis to the air temperature and humidity condition among the meadow ecological health condition of open-air meadow according to air temperature and humidity data. The net radiation data in the grassland ecological health of the field grassland can be obtained using the net radiation sensor 128, and the staff can analyze the net radiation in the grassland ecological health of the field grassland according to the net radiation data. Total radiation data in the grassland ecological health condition of the outdoor grassland can be acquired by using the total radiation sensor 129, and the staff can analyze the total radiation condition in the grassland ecological health condition of the outdoor grassland according to the total radiation data. Utilize short wave radiation sensor 124 can acquire the short wave radiation data among the meadow ecological health condition of open-air meadow, the staff can carry out the analysis to the short wave radiation condition among the meadow ecological health condition of open-air meadow according to short wave radiation data. The long wave radiation sensor 125 can be used for acquiring long wave radiation data in the grassland ecological health condition of the outdoor grassland, and the staff can analyze the long wave radiation condition in the grassland ecological health condition of the outdoor grassland according to the long wave radiation data. Rainfall data in the grassland ecological health condition of the field grassland can be acquired by utilizing the rainfall sensor 127, and the working personnel can analyze the rainfall condition in the grassland ecological health condition of the field grassland according to the rainfall data. Utilize wind speed direction sensor 123 can acquire the wind speed wind direction data among the meadow ecological health condition of open-air meadow, the staff can carry out the analysis to the wind speed wind direction condition among the meadow ecological health condition of open-air meadow according to wind speed wind direction data.

Specifically, the parameters of the air temperature/humidity sensor 126 may be: the model is ST2, the acquisition frequency is 1h, and the effective acquisition data range is-50 to +150 ℃.

Specifically, the parameters of the net radiation sensor 128 may be: the model is TBB-1, the acquisition frequency is 1h, and the effective acquisition data range is 0-20 mV.

Specifically, the parameters of the total radiation sensor 129 may be: the model is ES2, the acquisition frequency is 1h, and the effective acquisition data range is 0-2 kW.m-2.

Specifically, the parameters of the short-wave radiation sensor 124 may be: the model is NR01, the acquisition frequency is 1h, and the effective acquisition data range is 0-2000 W.m-2.

In particular, the parameters of the long wave radiation sensor 125 may be: the model is NR01, the acquisition frequency is 1h, and the effective acquisition data range is 0-2000 W.m-2.

Specifically, the parameters of the rainfall sensor 127 may be: the model number is RG2, the collection frequency is 1h, and the effective collection data range is 2.4mm per minute.

Specifically, the parameters of the wind speed and direction sensor 123 may be: the model is AN-WD2, the acquisition frequency is 1h, the effective acquisition data range is 0-75m/s and 0-356 degrees.

In some embodiments of the present application, the detection structure may further comprise: a soil sensing assembly that may be mounted to the portion of the support structure 110 that is inserted under the lawn.

The soil detection assembly is used for detecting soil conditions of the grassland. Specifically, the soil detection assembly may include: at least one of a soil temperature and humidity sensor 131 and a soil heat flux sensor 130. Utilize soil temperature and humidity sensor 131 can acquire the soil humiture data among the ecological healthy condition of meadow of open-air meadow, the staff can carry out the analysis to the soil humiture condition among the ecological healthy condition of meadow of open-air meadow according to soil humiture data. Soil heat flux data in the grassland ecological health condition of the field grassland can be acquired by using the soil heat flux sensor 130, and the worker can analyze the soil heat flux condition in the grassland ecological health condition of the field grassland according to the soil heat flux data.

Specifically, the parameters of the soil temperature and humidity sensor 131 may be: the model is SM150T, the acquisition frequency is 1h, and the effective acquisition data range is-25 to 65 degrees and 0to 100 percent.

Specifically, the parameters of soil heat flux sensor 130 may be: the model is HFP01, the collection frequency is 1h, effective collection data range: 2000 to 2000W/m 2.

In some embodiments of the present application, the data processing structure 150 may include: a processing unit and a transmitting unit. The processing unit is used for preprocessing the grassland ecological health data to obtain preprocessed data. In particular, the pre-processed data may be formatted and compressed grass ecological health data. The transmitting unit is electrically connected to the processing unit and used for sending the preprocessing data to the cloud. The pre-processed data can be stored in a remote end, so that the operator can conveniently download and view the pre-processed data.

Specifically, the transmitting unit may be a 5G signal transmitting unit, and the 5G signal transmitting unit may transmit the preprocessed data to the cloud end through a 5G signal. Under the condition of carrying out real-time detection in the region of predetermineeing to open-air meadow, the data volume of the ecological healthy data of meadow of production is huge, because the 5G signal has the characteristics that transmission speed is fast and the low delay, utilizes 5G signal emission unit can be fast with a large amount of signal transmission to high in the clouds. Of course, the transmitting unit may also be a 4G signal transmitting unit, and the preprocessed data may be transmitted to the cloud end through a 4G signal by using the 4G signal transmitting unit.

In some embodiments of the present application, the grass ecological health perception field terminal 100 may further include: a power supply structure 140. The power supply structure 140 is electrically connected to the detection structure and the data processing structure 150, and the power supply structure 140 can supply power to the detection structure and the data processing structure 150 to ensure that the detection structure and the data processing structure 150 can work for a long time.

Specifically, the power supply structure 140 may include: solar cell panel and battery. Wherein, solar cell panel can fixed mounting in bearing structure 110, utilizes bearing structure 110 to fix its position to the guarantee is at the stable in structure of working process solar cell panel. And the solar panel needs to be fixedly mounted at a position above the lawn of the support structure 110 to ensure that the solar panel can receive the irradiation of sunlight. Solar cell panel can be with solar energy transformation electric energy to realize the autonomic power supply on open-air meadow, guarantee that whole structure can work for a long time. The storage battery is electrically connected with the solar panel and is used for receiving and storing the electric energy from the solar panel. And the battery is electrically connected to the sensing arrangement and data processing arrangement 150 for powering the sensing arrangement and data processing arrangement 150. The battery may also be fixedly mounted to the support structure 110

In some embodiments of the present application, the grass ecological health perception field terminal 100 may further include: lightning protection structure. The lightning protection structure is fixedly arranged on the supporting structure. Specifically, lightning-arrest structure can fixed mounting in bearing structure's top to guarantee that lightning-arrest structure can receive the electric energy from the lightning the very first time, and transmit the electric energy to the meadow, thereby protect this meadow ecological health perception field terminal 100's overall structure. Specifically, the lightning protection structure can be a lightning rod, and the needle point of the lightning rod can be arranged towards the vertical upward direction.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A grassland ecological health perception field terminal, comprising:

a support structure;

the detection structure is fixedly arranged on the supporting structure and used for acquiring grassland ecological health data;

and the data processing structure is electrically connected with the detection structure and used for preprocessing the grassland ecological health data to obtain preprocessed data and sending the preprocessed data to a cloud.

2. The grass ecological health perception field terminal of claim 1, wherein the detection structure comprises: at least one of a light detection assembly, a biological weather detection assembly and a soil detection assembly;

wherein, the light detection subassembly is used for detecting the light condition of meadow, biological meteorological detection subassembly is used for detecting the biology and the meteorological condition of meadow, soil detection subassembly is used for detecting the soil condition of meadow.

3. The grass ecological health awareness field terminal of claim 2, wherein the light detection assembly comprises: at least one of a camera and a multispectral sensor.

4. The grass ecological health awareness field terminal of claim 2, wherein the bio-meteorological detection assembly comprises: at least one of an air temperature and humidity sensor, a net radiation sensor, a total radiation sensor, a short wave radiation sensor, a long wave radiation sensor, a rainfall sensor and a wind speed and direction sensor.

5. The grass ecological health awareness field terminal of claim 2, wherein the soil detection assembly comprises: at least one of a soil temperature and humidity sensor and a soil heat flux sensor.

6. The grass ecological health awareness field terminal of claim 1, wherein the data processing structure comprises:

the processing unit is used for preprocessing the grassland ecological health data to obtain preprocessed data;

and the transmitting unit is electrically connected with the processing unit and used for transmitting the preprocessing data to a cloud end.

7. The grassland ecological health perception field terminal according to claim 6, wherein the transmitting unit is a 5G signal transmitting unit, and the 5G signal transmitting unit is configured to transmit the preprocessed data to a cloud terminal through a 5G signal.

8. The grass ecological health awareness field terminal of claim 1, further comprising:

and the power supply structure is electrically connected with the detection structure and the data processing structure and used for supplying power to the detection structure and the data processing structure.

9. The grass ecological health awareness field terminal of claim 8, wherein the power structure comprises:

the solar cell panel is fixedly arranged on the supporting structure;

the storage battery is electrically connected with the solar cell panel, the detection structure and the data processing structure; the solar energy detection device is used for receiving and storing electric energy from the solar panel and supplying power to the detection structure and the data processing structure.

10. The grass ecological health awareness field terminal of claim 1, further comprising: and the lightning protection structure is fixedly arranged on the supporting structure.

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