阅读说明：本技术 一种农业鱼池水源检测及调节的智能控制系统 (Intelligent control system for detecting and adjusting water source of agricultural fishpond ) 是由 黄龙 于 2019-10-18 设计创作，主要内容包括：本发明公开了一种农业鱼池水源检测及调节的智能控制系统,包括无线浮游终端、无线电磁阀控制终端、无线终端管理装置和云服务器,所述无线浮游终端采用浮游的方式投放于所需检测的农业鱼池中,所述无线浮游终端和无线电磁阀控制终端分别与无线终端管理装置进行数据传输控制连接,且无线终端管理装置与云服务器进行数据传输连接,所述无线浮游终端和无线电磁阀控制终端通过无线终端管理装置与云服务器进行数据的上传及存档；通过无线浮游终端对农业鱼池水源的水温、PH值、盐度和氧气含量进行检测,并通过无线终端管理控制器控制无线电磁阀控制终端进行水温、PH值、盐度和氧气含量的调控,全程无需人工进行操作及记录,大大保证了水产品的生长。(The invention discloses an intelligent control system for detecting and adjusting water sources of an agricultural fishpond, which comprises a wireless floating terminal, a wireless electromagnetic valve control terminal, a wireless terminal management device and a cloud server, wherein the wireless floating terminal is placed in the agricultural fishpond to be detected in a floating mode, the wireless floating terminal and the wireless electromagnetic valve control terminal are respectively connected with the wireless terminal management device in a data transmission control mode, the wireless terminal management device is connected with the cloud server in a data transmission mode, and the wireless floating terminal and the wireless electromagnetic valve control terminal upload and archive data to the cloud server through the wireless terminal management device; detect water temperature, pH value, salinity and oxygen content at agricultural fish pond water source through wireless floating terminal to control wireless solenoid valve control terminal through wireless terminal management controller and carry out the regulation and control of water temperature, pH value, salinity and oxygen content, whole journey need not the manual work and operates and the record, has guaranteed the growth of aquatic products greatly.)

1. The utility model provides an intelligent control system that agricultural fish pond water source detected and adjusted, its characterized in that, includes wireless planktonic terminal, wireless solenoid valve control terminal, wireless terminal management device and cloud ware, wireless planktonic terminal adopts the planktonic mode to put into the agricultural fish pond of required detection, wireless planktonic terminal and wireless solenoid valve control terminal carry out data transmission control with wireless terminal management device respectively and are connected, and wireless terminal management device carries out data transmission with the cloud ware and is connected, wireless planktonic terminal and wireless solenoid valve control terminal carry out uploading and filing of data through wireless terminal management device and cloud ware.

2. The intelligent control system for detecting and adjusting the water source of the agricultural fishpond according to claim 1, wherein the wireless floating terminal and the wireless solenoid valve control terminal are in data transmission and control with a wireless terminal management device through any one of a 4G, 5G or WiFi network.

3. The intelligent control system for detecting and adjusting the water source of the agricultural fish pond according to claim 1, wherein the wireless terminal management device is connected with the cloud server in a data transmission manner through any one of a 4G network, a 5G network and a WiFi network.

4. The intelligent control system for detecting and adjusting the water source of the agricultural fishpond according to claim 1, wherein the wireless floating terminal comprises an alarm module, a temperature sensing module, a pH value detection sensing module, a salinity sensing module and an oxygen concentration sensing module;

the temperature sensing module is used for detecting the temperature of a water source in the agricultural fishpond, so that the detected temperature data is transmitted to the wireless terminal management device through any one of a 4G network, a 5G network or a WiFi network, and the temperature of the water source in the agricultural fishpond is adjusted;

the PH value detection sensing module is used for detecting the PH value of a water source in the agricultural fish pond, so that the detected PH value data is transmitted to the wireless terminal management device through any one of a 4G network, a 5G network or a WiFi network, and the PH value of the water source in the agricultural fish pond is adjusted;

the salinity sensing module is used for detecting the salinity of the water source in the agricultural fishpond, so that the detected salinity data is transmitted to the wireless terminal management device through any one of a 4G network, a 5G network or a WiFi network, and the salinity of the water source in the agricultural fishpond is adjusted;

the oxygen concentration sensing module is used for detecting the oxygen content of a water source in the agricultural fishpond, so that detected oxygen content data is transmitted to the wireless terminal management device through any one of a 4G network, a 5G network or a WiFi network, and the oxygen content of the water source in the agricultural fishpond is adjusted;

and the alarm module is used for transmitting the overhigh or overlow temperature, PH value, salinity and oxygen content of the water source in the agricultural fishpond to the wireless terminal management device in any one network connection mode of 4G, 5G or WiFi network to perform alarm display.

5. The intelligent control system for detecting and adjusting the water source of the agricultural fishpond according to claim 4, wherein the wireless floating terminal further comprises a first power module, a first MCU controller and a first wireless communication module;

the first power supply module is electrically connected with the first MCU controller and supplies power to the first MCU controller;

the first wireless communication module is electrically connected with the first MUC controller and provides any one of a 4G, 5G or WiFi network for the first MUC controller;

the first MUC controller is electrically connected with the alarm module, the temperature sensing module, the PH value detection sensing module, the salinity sensing module and the oxygen concentration sensing module respectively, and sends corresponding control instructions to the alarm module, the temperature sensing module, the PH value detection sensing module, the salinity sensing module and the oxygen concentration sensing module.

6. The intelligent control system for detecting and adjusting the water source of the agricultural fishpond of claim 1, wherein the wireless solenoid valve control terminal comprises a water heating control module, a water cooling control module, a salinity adjusting module, a pH value adjusting module and an oxygen adjusting module;

the water heating control module is used for heating the water source temperature when the temperature sensing module detects that the temperature in the water source of the agricultural fishpond is too low;

the water cooling control module is used for cooling the temperature of the water source when the temperature sensing module detects that the temperature of the water source in the agricultural fishpond is too high;

the salinity adjusting module is used for adjusting the salinity when the salinity of the water source in the agricultural fishpond detected by the salinity sensing module is too high or too low;

the pH value adjusting module is used for adjusting the pH value when the pH value detecting and sensing module detects that the pH value of the water source in the agricultural fishpond is too high or too low;

and the oxygen regulating module is used for regulating the oxygen content when the oxygen concentration sensing module detects that the oxygen content of the water source in the agricultural fishpond is too high or too low.

7. The intelligent control system for detecting and adjusting the water source of the agricultural fishpond of claim 6, wherein the wireless solenoid valve control terminal further comprises a second power module, a second MCU controller and a second wireless communication module;

the second power supply module is electrically connected with the second MCU controller and supplies power to the second MCU controller;

the second wireless communication module is electrically connected with the second MUC controller and provides any one of a 4G, 5G or WiFi network for the second MUC controller;

the second MUC controller is electrically connected with the water heating control module, the water cooling control module, the salinity adjusting module, the PH value adjusting module and the oxygen adjusting module respectively, sends corresponding control instructions to the water heating control module, the water cooling control module, the salinity adjusting module, the PH value adjusting module and the oxygen adjusting module, and receives the corresponding control instructions sent by the first MUC controller through the first wireless communication module through the second wireless communication module.

8. The intelligent control system for detecting and adjusting the water source of the agricultural fishpond according to claim 1, wherein the wireless terminal management controller comprises a backup battery module, a GSM communication module and a WIFI connection module;

the backup battery module is used for providing a backup power supply for the wireless terminal management controller;

the GSM communication module is in communication connection with the wireless electromagnetic valve control terminal and the wireless floating terminal respectively, so that the wireless terminal management controller controls the wireless electromagnetic valve control terminal and the wireless floating terminal through the GSM communication module;

the WiFi connection module is respectively connected with the wireless electromagnetic valve control terminal and the wireless floating terminal in any one network connection mode of 4G, 5G or WiFi network, so that the wireless terminal management controller controls the wireless electromagnetic valve control terminal and the wireless floating terminal through the WiFi connection module.

9. The intelligent control system for detecting and adjusting the water source of the agricultural fishpond of claim 8, wherein the wireless terminal management controller further comprises a third power module, a third MCU controller and a third wireless communication module;

the third power supply module is electrically connected with the third MCU controller and supplies power to the third MCU controller;

the third wireless communication module is electrically connected with the third MUC controller and provides any one of a 4G, 5G or WiFi network for the third MUC controller;

the third MUC controller is respectively connected with the backup battery module, the GSM communication module and the WIFI module and sends corresponding control instructions to the backup battery module, the GSM communication module and the WIFI module, and the third MUC controller receives corresponding control instructions sent by the first MUC controller through the first wireless communication module and the second MUC controller through the second wireless communication module through the third wireless communication module.

Technical Field

The invention relates to the field of aquatic product cultivation, in particular to an intelligent control system for detecting and adjusting a water source of an agricultural fishpond.

Background

The requirements of aquatic products cultured in the agricultural fishpond on water temperature, pH value, salinity and oxygen content are particularly high, and once the numerical value slightly fluctuates, a great amount of aquatic products can die, so that the high-precision control of a water source in the agricultural fishpond is very critical to the survival rate of the aquatic products, but at present, the control of the water source in the agricultural fishpond is realized by manually and regularly inspecting and detecting the water temperature, the pH value, the salinity and the oxygen content and then manually adjusting according to the detected data; the manual adjustment not only wastes manpower, but also is complex to operate, and is difficult to regulate and control the water temperature, the PH value, the salinity and the oxygen content to be accurate, and also greatly influences the growth of aquatic products.

Disclosure of Invention

The present invention aims to overcome the above-mentioned shortcomings and provide a technical solution to solve the above-mentioned problems.

The utility model provides an intelligent control system that agricultural fish pond water source detected and adjusted, includes wireless planktonic terminal, wireless solenoid valve control terminal, wireless terminal management device and cloud ware, wireless planktonic terminal adopts the planktonic mode to put into the agricultural fish pond of required detection, wireless planktonic terminal and wireless solenoid valve control terminal carry out data transmission control connection with wireless terminal management device respectively, and wireless terminal management device carries out data transmission with the cloud ware and is connected, wireless planktonic terminal and wireless solenoid valve control terminal carry out uploading and filing of data through wireless terminal management device and cloud ware.

As a further scheme of the invention: and the wireless floating terminal and the wireless electromagnetic valve control terminal are in data transmission and control with the wireless terminal management device in any network connection mode of 4G, 5G or WiFi network.

As a further scheme of the invention: and the wireless terminal management device is connected with the cloud server in a data transmission manner through any one of a 4G network, a 5G network or a WiFi network.

As a further scheme of the invention: the wireless floating terminal comprises an alarm module, a temperature sensing module, a PH value detection sensing module, a salinity sensing module and an oxygen concentration sensing module;

the temperature sensing module is used for detecting the temperature of a water source in the agricultural fishpond, so that the detected temperature data is transmitted to the wireless terminal management device through any one of a 4G network, a 5G network or a WiFi network, and the temperature of the water source in the agricultural fishpond is adjusted;

the PH value detection sensing module is used for detecting the PH value of a water source in the agricultural fish pond, so that the detected PH value data is transmitted to the wireless terminal management device through any one of a 4G network, a 5G network or a WiFi network, and the PH value of the water source in the agricultural fish pond is adjusted;

the salinity sensing module is used for detecting the salinity of the water source in the agricultural fishpond, so that the detected salinity data is transmitted to the wireless terminal management device through any one of a 4G network, a 5G network or a WiFi network, and the salinity of the water source in the agricultural fishpond is adjusted;

the oxygen concentration sensing module is used for detecting the oxygen content of a water source in the agricultural fishpond, so that detected oxygen content data is transmitted to the wireless terminal management device through any one of a 4G network, a 5G network or a WiFi network, and the oxygen content of the water source in the agricultural fishpond is adjusted;

and the alarm module is used for transmitting the overhigh or overlow temperature, PH value, salinity and oxygen content of the water source in the agricultural fishpond to the wireless terminal management device in any one network connection mode of 4G, 5G or WiFi network to perform alarm display.

As a further scheme of the invention: the wireless floating terminal also comprises a first power module, a first MCU controller and a first wireless communication module;

the first power supply module is electrically connected with the first MCU controller and supplies power to the first MCU controller;

the first wireless communication module is electrically connected with the first MUC controller and provides any one of a 4G, 5G or WiFi network for the first MUC controller;

the first MUC controller is electrically connected with the alarm module, the temperature sensing module, the PH value detection sensing module, the salinity sensing module and the oxygen concentration sensing module respectively, and sends corresponding control instructions to the alarm module, the temperature sensing module, the PH value detection sensing module, the salinity sensing module and the oxygen concentration sensing module.

As a further scheme of the invention: the wireless electromagnetic valve control terminal comprises a water heating control module, a water cooling control module, a salinity adjusting module, a PH value adjusting module and an oxygen adjusting module;

the water heating control module is used for heating the water source temperature when the temperature sensing module detects that the temperature in the water source of the agricultural fishpond is too low;

the water cooling control module is used for cooling the temperature of the water source when the temperature sensing module detects that the temperature of the water source in the agricultural fishpond is too high;

the salinity adjusting module is used for adjusting the salinity when the salinity of the water source in the agricultural fishpond detected by the salinity sensing module is too high or too low;

the pH value adjusting module is used for adjusting the pH value when the pH value detecting and sensing module detects that the pH value of the water source in the agricultural fishpond is too high or too low;

and the oxygen regulating module is used for regulating the oxygen content when the oxygen concentration sensing module detects that the oxygen content of the water source in the agricultural fishpond is too high or too low.

As a further scheme of the invention: the wireless electromagnetic valve control terminal also comprises a second power supply module, a second MCU controller and a second wireless communication module;

the second power supply module is electrically connected with the second MCU controller and supplies power to the second MCU controller;

the second wireless communication module is electrically connected with the second MUC controller and provides any one of a 4G, 5G or WiFi network for the second MUC controller;

the second MUC controller is electrically connected with the water heating control module, the water cooling control module, the salinity adjusting module, the PH value adjusting module and the oxygen adjusting module respectively, sends corresponding control instructions to the water heating control module, the water cooling control module, the salinity adjusting module, the PH value adjusting module and the oxygen adjusting module, and receives the corresponding control instructions sent by the first MUC controller through the first wireless communication module through the second wireless communication module.

As a further scheme of the invention: the wireless terminal management controller comprises a backup battery module, a GSM communication module and a WIFI connection module;

the backup battery module is used for providing a backup power supply for the wireless terminal management controller;

the GSM communication module is in communication connection with the wireless electromagnetic valve control terminal and the wireless floating terminal respectively, so that the wireless terminal management controller controls the wireless electromagnetic valve control terminal and the wireless floating terminal through the GSM communication module;

the WiFi connection module is respectively connected with the wireless electromagnetic valve control terminal and the wireless floating terminal in any one network connection mode of 4G, 5G or WiFi network, so that the wireless terminal management controller controls the wireless electromagnetic valve control terminal and the wireless floating terminal through the WiFi connection module.

As a further scheme of the invention: the wireless terminal management controller also comprises a third power module, a third MCU controller and a third wireless communication module;

the third power supply module is electrically connected with the third MCU controller and supplies power to the third MCU controller;

the third wireless communication module is electrically connected with the third MUC controller and provides any one of a 4G, 5G or WiFi network for the third MUC controller;

the third MUC controller is respectively connected with the backup battery module, the GSM communication module and the WIFI module and sends corresponding control instructions to the backup battery module, the GSM communication module and the WIFI module, and the third MUC controller receives corresponding control instructions sent by the first MUC controller through the first wireless communication module and the second MUC controller through the second wireless communication module through the third wireless communication module.

Compared with the prior art, the invention has the beneficial effects that: detect water temperature, pH value, salinity and oxygen content at agricultural fish pond water source through wireless floating terminal to control wireless solenoid valve control terminal through wireless terminal management controller and carry out the regulation and control of water temperature, pH value, salinity and oxygen content, whole journey need not the manual work and operates and the record, has guaranteed the growth of aquatic products greatly.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a system configuration diagram of an intelligent control system for agricultural fishpond water source detection and regulation;

fig. 2 is a module connection diagram of the wireless floating terminal;

FIG. 3 is a block diagram of a wireless solenoid valve control terminal;

fig. 4 is a block diagram of a management controller of a wireless terminal.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, in an embodiment of the present invention, an intelligent control system for detecting and adjusting a water source of an agricultural fishpond includes a wireless floating terminal 1, a wireless electromagnetic valve control terminal 2, a wireless terminal management device 3 and a cloud server 4, where the wireless floating terminal 1 is placed in an agricultural fishpond to be detected in a floating manner, the wireless floating terminal 1 and the wireless electromagnetic valve control terminal 2 are respectively connected with the wireless terminal management device 3 in a data transmission control manner, the wireless terminal management device 3 is connected with the cloud server 4 in a data transmission manner, and the wireless floating terminal 1 and the wireless electromagnetic valve control terminal 2 upload and archive data to the cloud server 4 through the wireless terminal management device 3.

The wireless floating terminal 1 and the wireless electromagnetic valve control terminal 2 transmit and control data with a wireless terminal management device through any one of a 4G network, a 5G network or a WiFi network.

The wireless terminal management device 3 and the cloud server 4 are connected in a data transmission manner through any one of a 4G, 5G or WiFi network.

The wireless floating terminal 1 comprises an alarm module 5, a temperature sensing module 6, a PH value detection sensing module 7, a salinity sensing module 8 and an oxygen concentration sensing module 9;

the temperature sensing module 6 is used for detecting the temperature of the water source in the agricultural fishpond, so that the detected temperature data is transmitted to the wireless terminal management device 3 through any one of a 4G network, a 5G network or a WiFi network, and the temperature of the water source in the agricultural fishpond is adjusted;

the PH value detection sensing module 7 is used for detecting the PH value of the water source in the agricultural fish pond, so that the detected PH value data is transmitted to the wireless terminal management device 3 through any one of a 4G network, a 5G network or a WiFi network, and the PH value of the water source in the agricultural fish pond is adjusted;

the salinity sensing module 8 is used for detecting the salinity of the water source in the agricultural fishpond, so that the detected salinity data is transmitted to the wireless terminal management device 3 through any one of the 4G, 5G or WiFi networks to adjust the salinity of the water source in the agricultural fishpond;

the oxygen concentration sensing module 9 is used for detecting the oxygen content of the water source in the agricultural fishpond, so that the detected oxygen content data is transmitted to the wireless terminal management device 3 through any one of the 4G, 5G or WiFi networks to adjust the oxygen content of the water source in the agricultural fishpond;

and the alarm module 5 is used for transmitting the overhigh or overlow temperature, PH value, salinity and oxygen content of the water source in the agricultural fishpond to the wireless terminal management device 3 in any network connection mode of 4G, 5G or WiFi network to perform alarm display.

The wireless floating terminal also comprises a first power supply module 10, a first MCU (microprogrammed control unit) controller 11 and a first wireless communication module 12;

the first power module 10 is electrically connected with the first MCU controller 11 and supplies power to the first MCU controller 11;

the first wireless communication module 12 is electrically connected to the first MUC controller 11, and provides any one of a 4G, 5G or WiFi network to the first MUC controller 11;

the first MUC controller 11 is electrically connected with the alarm module 5, the temperature sensing module 6, the PH value detection sensing module 7, the salinity sensing module 8 and the oxygen concentration sensing module 9 respectively, and sends corresponding control instructions to the alarm module 5, the temperature sensing module 6, the PH value detection sensing module 7, the salinity sensing module 8 and the oxygen concentration sensing module 9.

The wireless electromagnetic valve control terminal 2 comprises a water heating control module 13, a water cooling control module 14, a salinity adjusting module 15, a PH value adjusting module 16 and an oxygen adjusting module 17;

the water heating control module 13 is used for heating the water source temperature when the temperature sensing module 6 detects that the temperature in the water source of the agricultural fishpond is too low;

the water cooling control module 14 is used for cooling the temperature of the water source when the temperature sensing module 6 detects that the temperature of the water source in the agricultural fishpond is too high;

the salinity adjusting module 15 is used for adjusting the salinity when the salinity of the water source in the agricultural fishpond detected by the salinity sensing module 8 is too high or too low;

the pH value adjusting module 16 is used for adjusting the pH value when the pH value detecting and sensing module 7 detects that the pH value of the water source in the agricultural fishpond is too high or too low;

and the oxygen adjusting module 17 is used for adjusting the oxygen content when the oxygen concentration sensing module 9 detects that the oxygen content of the water source in the agricultural fishpond is too high or too low.

The wireless electromagnetic valve control terminal 2 further comprises a second power module 17, a second MCU controller 18 and a second wireless communication module 19;

the second power module 17 is electrically connected with the second MCU controller 18 and supplies power to the second MCU controller 18;

the second wireless communication module 19 is electrically connected to the second MUC controller 18, and provides any one of a 4G, 5G or WiFi network to the second MUC controller 18;

the second MUC controller 18 is electrically connected to the water heating control module 13, the water cooling control module 14, the salinity adjusting module 15, the PH adjusting module 16, and the oxygen adjusting module 17, and sends corresponding control instructions to the water heating control module 13, the water cooling control module 14, the salinity adjusting module 15, the PH adjusting module 16, and the oxygen adjusting module 17, and the second MUC controller 18 receives the corresponding control instructions sent by the first MUC controller 10 through the first wireless communication module 12 through the second wireless communication module 19.

The wireless terminal management controller 3 comprises a backup battery module 20, a GSM communication module 21 and a WIFI connection module 22;

the backup battery module 20 is used for providing a backup power supply for the wireless terminal management controller 3;

the GSM communication module 21 is in communication connection with the wireless solenoid valve control terminal 2 and the wireless floating terminal 1 respectively, so that the wireless terminal management controller 3 controls the wireless solenoid valve control terminal 2 and the wireless floating terminal 1 through the GSM communication module 21;

the WiFi connection module 22 is connected to the wireless solenoid valve control terminal 2 and the wireless floating terminal 1 through any one of the network connection modes of 4G, 5G or WiFi network, so that the wireless terminal management controller 3 controls the wireless solenoid valve control terminal 2 and the wireless floating terminal 1 through the WiFi connection module 22.

The wireless terminal management controller 3 further comprises a third power module 23, a third MCU controller 24 and a third wireless communication module 25;

the third power module 23 is electrically connected with the third MCU controller 24 and supplies power to the third MCU controller 24;

the third wireless communication module 25 is electrically connected to the third MUC controller 24, and provides any one of a 4G, 5G or WiFi network to the third MUC controller 24;

the third MUC controller 24 is respectively connected to the backup battery module 20, the GSM communication module 21, and the WIFI connection module 22, and sends corresponding control instructions to the backup battery module 20, the GSM communication module 21, and the WIFI connection module 22, and the third MUC controller 24 receives, through the third wireless communication module 25, corresponding control instructions sent by the first MUC controller 11 through the first wireless communication module 12 and the second MUC controller 18 through the second wireless communication module 19.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.