CN215074963U - Monitoring system is planted to prickly ash - Google Patents

Abstract

The utility model discloses a pepper planting monitoring system, which comprises a central processing unit, a storage device, an air temperature monitoring unit, an air humidity monitoring unit, a soil temperature monitoring unit, a soil humidity monitoring unit, a soil quality monitoring unit, a temperature compensation implementation device and an illumination complementing device; the device is characterized by further comprising a soil nutrient detector, a soil pH value sensor, an illumination intensity sensor, a carbon dioxide sensor, a wind speed sensor, an image detection device and a pesticide spraying unmanned aerial vehicle. The utility model can comprehensively detect all parameters of the pepper planting area, and is beneficial for relevant pepper planting workers to efficiently and comprehensively monitor basic conditions of pepper planting; simultaneously, combine the pesticide to spray unmanned aerial vehicle's ripe science and technology, can spray unmanned aerial vehicle to the pesticide and carry out remote control, plant the district to the prickly ash and carry out automatic pesticide and spray, avoided a large amount of artifical consumptions to the work efficiency that the pesticide sprayed has further been improved.

Description

Monitoring system is planted to prickly ash

Technical Field

The utility model belongs to the technical field of the control is planted to the prickly ash, concretely relates to monitored control system is planted to prickly ash.

Background

The pricklyash peel is used as a traditional Chinese medicine, has the effects of warming the middle-jiao and promoting the circulation of qi, expelling cold, relieving pain, killing parasites and the like, is used for treating symptoms such as stomach and abdomen psychroalgia, vomiting, diarrhea, schistosomiasis, ascariasis and the like, and is also used as an epidermal anesthetic. Before the planting process of the pepper, the water content of the planted soil is usually required to be detected, so that the growth condition of the pepper is conveniently planned, and the normal growth of the pepper is ensured.

Present utility model patent application number of authorizing is CN201621094408.0, the name is a crops planting monitored control system, and it includes central processing unit, environmental monitoring device and storage device. Wherein the central processing unit is used for receiving, executing and distributing instructions. The storage device is used for storing the optimal planting environmental condition data of the crops. The environment monitoring device is used for collecting environmental data of the current growth of crops and transmitting the collected data to the central processing device. The central processing device calls the related data stored in the storage device and compares the related data with the data stored in the storage device so as to monitor and adjust the growth environment of the crops at any time, ensure that the environmental conditions are the current optimal growth environmental conditions of the crops, ensure the excellent growth of the crops and further obtain the optimal crop yield.

However, the environment monitoring parameters in the scheme are less, so that the comprehensive monitoring of the pepper planting is not facilitated; and, at present, to the application and very extensive of unmanned aerial vehicle technique in the farming field, but do not use unmanned aerial vehicle correlation technique in prickly ash planting field, be unfavorable for the scientific and technological innovation in prickly ash planting field for prickly ash planting technical innovation receives the restriction.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a monitored control system is planted to prickly ash for solve one of the technical problem that exists among the above-mentioned prior art, if: the environment monitoring parameters in the scheme are less, so that the comprehensive monitoring of the pepper planting is not facilitated; and, at present, to the application and very extensive of unmanned aerial vehicle technique in the farming field, but do not use unmanned aerial vehicle correlation technique in prickly ash planting field, be unfavorable for the scientific and technological innovation in prickly ash planting field for prickly ash planting technical innovation receives the restriction.

In order to achieve the above purpose, the technical scheme of the utility model is that:

a pepper planting monitoring system comprises a central processing device, a storage device, an air temperature monitoring unit, an air humidity monitoring unit, a soil temperature monitoring unit, a soil humidity monitoring unit, a soil quality monitoring unit, a temperature compensation implementation device and an illumination complementing device; the device also comprises a soil nutrient detector, a soil pH value sensor, an illumination intensity sensor, a carbon dioxide sensor, a wind speed sensor, an image detection device and a pesticide spraying unmanned aerial vehicle;

the central processing unit is respectively connected with the storage device, the air temperature monitoring unit, the air humidity monitoring unit, the soil temperature monitoring unit, the soil humidity monitoring unit, the soil quality monitoring unit, the temperature compensation implementation device, the illumination complementing device, the soil nutrient detector, the soil PH value sensor, the illumination intensity sensor, the carbon dioxide sensor, the wind speed sensor and the image detection device; the central processing unit is connected with the pesticide spraying unmanned aerial vehicle in a wireless communication mode.

Further, the device also comprises a positioning device, and the positioning device is connected with the central processing device.

Furthermore, the drip irrigation system also comprises water and fertilizer integrated drip irrigation equipment, and the water and fertilizer integrated drip irrigation equipment is connected with the central processing unit.

Further, the system also comprises a wireless communication device which is connected with the central processing device.

Further, the wireless communication device includes 4G communication or 5G communication.

Furthermore, the intelligent monitoring system also comprises an intelligent monitoring terminal which is in network connection with the central processing device through the wireless communication device.

Further, the system also comprises a data display device, and the data display device is connected with the central processing device.

Furthermore, the system also comprises a power supply which is connected with the central processing device.

Furthermore, the power supply comprises a solar power generation system and a storage battery, and the solar power generation system, the storage battery and the central processing unit are sequentially connected.

Furthermore, the system also comprises an abnormity alarm which is connected with the central processing device.

Compared with the prior art, the utility model discloses the beneficial effect who has does:

the scheme has the innovation point that through the scheme, all parameters of the pepper planting area can be comprehensively detected, and the basic situation of pepper planting can be effectively and comprehensively monitored by related pepper planting workers; simultaneously, combine the pesticide to spray unmanned aerial vehicle's ripe science and technology, can spray unmanned aerial vehicle to the pesticide and carry out remote control, plant the district to the prickly ash and carry out automatic pesticide and spray, avoided a large amount of artifical consumptions to the work efficiency that the pesticide sprayed has further been improved.

Drawings

Fig. 1 is a schematic view of the overall structure of example 1 according to the embodiment of the present invention.

Fig. 2 is a schematic view of the overall structure of example 2 according to the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to fig. 1-2 of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1:

as shown in fig. 1, a pepper planting monitoring system is provided, which includes a central processing unit, a storage device, an air temperature monitoring unit, an air humidity monitoring unit, a soil temperature monitoring unit, a soil humidity monitoring unit, a soil quality monitoring unit, a temperature compensation implementation device, and an illumination complementing device; the device also comprises a soil nutrient detector, a soil pH value sensor, an illumination intensity sensor, a carbon dioxide sensor, a wind speed sensor, an image detection device and a pesticide spraying unmanned aerial vehicle; the central processing unit is respectively connected with the storage device, the air temperature monitoring unit, the air humidity monitoring unit, the soil temperature monitoring unit, the soil humidity monitoring unit, the soil quality monitoring unit, the temperature compensation implementation device, the illumination complementing device, the soil nutrient detector, the soil PH value sensor, the illumination intensity sensor, the carbon dioxide sensor, the wind speed sensor and the image detection device; the central processing unit is connected with the pesticide spraying unmanned aerial vehicle in a wireless communication mode.

The central processing device is used as the core control of the pepper planting monitoring system; the storage device is used for storing each detected data of pepper planting; the air temperature monitoring unit is used for detecting air temperature data of the pepper planting area; the air humidity monitoring unit is used for detecting air humidity data of the pepper planting area; the soil temperature monitoring unit is used for detecting soil temperature data of the pepper planting area; the soil humidity monitoring unit is used for detecting soil humidity data of the pepper planting area; the soil quality monitoring unit is used for detecting soil fertility data of the pepper planting area; the temperature compensation implementation device is used for performing temperature compensation on the soil temperature of the pepper planting area; the illumination complementing device is used for complementing illumination to the pepper planting area; the soil nutrient detector is used for detecting soil nutrient data of the pepper planting area; the soil pH value sensor is used for detecting the soil pH value data of the pepper planting area; the illumination intensity sensor is used for detecting illumination intensity data of the pepper planting area; the carbon dioxide sensor is used for detecting carbon dioxide concentration data of the pepper planting area; the wind speed sensor is used for detecting wind speed data of the pepper planting area; the image detection device is used for detecting image data of the pepper planting area; pesticide sprays unmanned aerial vehicle and is used for carrying out the agricultural under central processing unit's control and sprays to the prickly ash planting district. By the scheme, all parameters of the pepper planting area can be comprehensively detected, and the basic situation of pepper planting can be effectively and comprehensively monitored by related pepper planting workers; simultaneously, combine the pesticide to spray unmanned aerial vehicle's ripe science and technology, can spray unmanned aerial vehicle to the pesticide and carry out remote control, plant the district to the prickly ash and carry out automatic pesticide and spray, avoided a large amount of artifical consumptions to the work efficiency that the pesticide sprayed has further been improved.

Example 2:

as shown in fig. 2, further to embodiment 1, the mobile terminal further includes a positioning device, and the positioning device is connected to the central processing device. The system is used for collecting the geographical position information of the monitored Chinese prickly ash planting areas, and is convenient for remote Chinese prickly ash planting workers to monitor the Chinese prickly ash planting areas in different geographical positions in real time. In particular, a GPS positioning system may be used.

Furthermore, the drip irrigation system also comprises water and fertilizer integrated drip irrigation equipment, and the water and fertilizer integrated drip irrigation equipment is connected with the central processing unit. Is used for irrigating and fertilizing the pepper planting area.

Further, the system also comprises a wireless communication device which is connected with the central processing device.

Further, the wireless communication device includes 4G communication or 5G communication. Compared with the traditional wireless communication device, the wireless communication device has better performance, such as long transmission distance, high transmission efficiency and the like.

Furthermore, the intelligent monitoring system also comprises an intelligent monitoring terminal which is in network connection with the central processing device through the wireless communication device. The remote monitoring system is used for remote pepper planting workers to carry out remote monitoring, and specifically can adopt smart phones, computers and the like.

Further, the system also comprises a data display device, and the data display device is connected with the central processing device. The method is used for visualizing all data detected in the pepper planting area in real time. Specifically, an LCD liquid crystal display may be used.

Furthermore, the system also comprises a power supply which is connected with the central processing device. The power supply comprises a solar power generation system and a storage battery, and the solar power generation system, the storage battery and the central processing unit are sequentially connected. The solar power generation mature at the present stage is used in the field of pepper planting, and the utilization efficiency of sunlight can be improved.

Furthermore, the system also comprises an abnormity alarm which is connected with the central processing device. When abnormal data appear in each item of detected data, the abnormal alarm can give an alarm for abnormality and warn relevant workers for pepper planting.

It is worth noting that: the central processing unit, the storage device, the air temperature monitoring unit, the air humidity monitoring unit, the soil temperature monitoring unit, the soil humidity monitoring unit, the soil property monitoring unit, the temperature compensation implementation device, the illumination complement device, the soil nutrient detector, the soil PH value sensor, the illumination intensity sensor, the carbon dioxide sensor, the wind speed sensor, the image detection device, the pesticide spraying unmanned aerial vehicle and the like in the scheme are circuits or devices in the prior art, the innovation of the scheme is not on a single circuit, but the matching use of a plurality of circuits or devices realizes the purposes of the invention and the creation of the scheme.

Above is the utility model discloses a preferred embodiment, all rely on the utility model discloses the change that technical scheme made, produced functional action does not surpass the utility model discloses during technical scheme's scope, all belong to the utility model discloses a protection scope.

Claims (10)

1. A pepper planting monitoring system comprises a central processing device, a storage device, an air temperature monitoring unit, an air humidity monitoring unit, a soil temperature monitoring unit, a soil humidity monitoring unit, a soil quality monitoring unit, a temperature compensation implementation device and an illumination complementing device; the device is characterized by also comprising a soil nutrient detector, a soil pH value sensor, an illumination intensity sensor, a carbon dioxide sensor, a wind speed sensor, an image detection device and a pesticide spraying unmanned aerial vehicle;

the central processing unit is respectively connected with the storage device, the air temperature monitoring unit, the air humidity monitoring unit, the soil temperature monitoring unit, the soil humidity monitoring unit, the soil quality monitoring unit, the temperature compensation implementation device, the illumination complementing device, the soil nutrient detector, the soil PH value sensor, the illumination intensity sensor, the carbon dioxide sensor, the wind speed sensor and the image detection device; the central processing unit is connected with the pesticide spraying unmanned aerial vehicle in a wireless communication mode.

2. The pepper planting monitoring system of claim 1, further comprising a positioning device connected to the central processing device.

3. The pepper planting monitoring system of claim 1, further comprising a water and fertilizer integrated drip irrigation device connected to the central processing unit.

4. The pepper planting monitoring system of claim 1, further comprising a wireless communication device, wherein the wireless communication device is connected to the central processing device.

5. The pepper planting monitoring system of claim 4, wherein the wireless communication device comprises 4G communication or 5G communication.

6. The pepper planting monitoring system of claim 4, further comprising an intelligent monitoring terminal, wherein the intelligent monitoring terminal is connected to the central processing unit through the wireless communication device via a network.

7. The pepper planting monitoring system of claim 1, further comprising a data display device, wherein the data display device is connected to the central processing device.

8. The pepper planting monitoring system of claim 1, further comprising a power supply connected to the central processing unit.

9. The pepper planting monitoring system of claim 8, wherein the power supply comprises a solar power generation system and a storage battery, and the solar power generation system, the storage battery and the central processing unit are sequentially connected.

10. The pepper planting monitoring system of claim 1, further comprising an abnormality alarm connected to the central processing unit.

Images