CN204965083U - Nursery pond based on thing networking - Google Patents

Abstract

The utility model provides a nursery pond based on thing networking, wireless showy terminal includes a MCU controller and temperature salinity sensing module, radio magnet valve control terminal includes the 2nd MCU controller, water heating control module and water cooling control module, temperature salinity sensing module detects the temperature and the salinity in the pond of growing seedlings, and send wireless terminal management device through a MCU controller with wireless mode with it, wireless terminal management device is to the 2nd MCU controller send instruction, the 2nd MCU controller control water heating control module adjusts that the pond temperature of growing seedlings risees or control water cooling control module is adjusted the pond temperature of growing seedlings and is reduced. Implement the utility model discloses a nursery pond based on thing networking has following beneficial effect: use manpower sparingly, can carry out high accuracy control, improve the survival rate of seedling temperature and salinity.

Description

A kind of temperature of fry nursing pool based on Internet of Things and salinity remote monitoring control system

Technical field

The utility model relates to aquaculture field, particularly a kind of temperature of fry nursing pool based on Internet of Things and salinity remote monitoring control system.

Background technology

Particularly the requirement of young nursery pond to water temperature and salinity is high especially for aquaculture, and the fluctuation that water temperature difference is 2 degrees Celsius all may cause the mass mortality of seedling, and therefore, the high precision of temperature of fry nursing pool controls very crucial to the survival rate of seedling.Current raiser measures water temperature and salinity by artificial timed patrol, then manually adds high-low-temperature according to measurement result and regulates water temperature and salinity; Manual control is waste of manpower not only, complex operation, and is difficult to the precision controlling temperature required and salinity, cause water temperature labile factor to increase, because high precision control can not be carried out to water temperature and salinity, and the extreme influence survival rate of seedling.

Utility model content

The technical problems to be solved in the utility model is, for prior art above-mentioned waste of manpower, high precision control can not be carried out on water temperature and salinity, affect the defect of the survival rate of seedling, provide a kind of and save manpower, high precision control, the temperature of fry nursing pool based on Internet of Things improving the survival rate of seedling and salinity remote monitoring control system can be carried out to water temperature and salinity.

The utility model solves the technical scheme that its technical matters adopts: construct a kind of temperature of fry nursing pool based on Internet of Things and salinity remote monitoring control system, comprise at least one wireless floating terminal, radio magnet valve control terminal, wireless terminal management devices and the webserver, described wireless floating terminal adopts floating mode to throw in be needed in the nursery pond detected, described wireless floating terminal comprises a MCU controller and temperature creep stress sensing module, described radio magnet valve control terminal comprises the 2nd MCU controller, water heating control module and water for cooling control module, described temperature creep stress sensing module detects water temperature and the salinity of described nursery pond in real time, and the water temperature of detection and salinity are sent to a described MCU controller, the water temperature of described detection and salinity are wirelessly sent to described wireless terminal management devices and store by a described MCU controller, described wireless terminal management devices is to described 2nd MCU controller sending controling instruction, described 2nd MCU controller regulates described larval rearing water temperature rise according to the corresponding control of described steering order described water heating control module or controls described water for cooling control module and regulates described temperature of fry nursing pool to reduce, the water temperature of described detection and salinity are sent to the described webserver by internet simultaneously and show by described wireless terminal management devices.

In the temperature of fry nursing pool based on Internet of Things described in the utility model and salinity remote monitoring control system, described wireless floating terminal also comprises the first wireless communication module, described radio magnet valve control terminal also comprises the second wireless communication module, described wireless terminal management devices also comprises the 3rd wireless communication module, 3rd MCU controller and WIFI module, the water temperature of described detection and salinity are sent to described 3rd wireless communication module by described first wireless communication module by a described MCU controller, the water temperature of described detection and salinity are sent to described 3rd MCU controller and store by described 3rd wireless communication module, corresponding steering order is sent to described 2nd MCU controller by described 3rd wireless communication module and the second wireless communication module by described 3rd MCU controller successively, the water temperature of described detection and salinity are sent to the described webserver by described WIFI module by described 3rd MCU controller simultaneously.

In the temperature of fry nursing pool based on Internet of Things described in the utility model and salinity remote monitoring control system, described wireless terminal management devices also comprises gsm communication module, and described gsm communication module is connected with described 3rd MCU controller, for being transmitted water temperature and the salinity of described detection to the described webserver by GSM network.

In the temperature of fry nursing pool based on Internet of Things described in the utility model and salinity remote monitoring control system, described wireless floating terminal also comprises alarm module, described alarm module is connected with a MCU controller, when the water temperature of described detection or salinity reach warning point, described alarm module flashes warning, and the water temperature of described detection or salinity are sent to described wireless terminal management devices by described first wireless communication module by a described MCU controller simultaneously.

In the temperature of fry nursing pool based on Internet of Things described in the utility model and salinity remote monitoring control system, described first wireless communication module, the second wireless communication module and the 3rd wireless communication module are ZigBee wireless communication module or WIFI wireless module or wireless radio frequency modules.

In the temperature of fry nursing pool based on Internet of Things described in the utility model and salinity remote monitoring control system, described wireless floating terminal also comprises the first power module, and described first power module is connected with a described MCU controller, for powering to a described MCU controller.

In the temperature of fry nursing pool based on Internet of Things described in the utility model and salinity remote monitoring control system, described radio magnet valve control terminal also comprises second source module, and described second source module is connected with described 2nd MCU controller, for powering to described 2nd MCU controller.

In the temperature of fry nursing pool based on Internet of Things described in the utility model and salinity remote monitoring control system, described wireless terminal management devices also comprises the 3rd power module, and described 3rd power module is connected with described 3rd MCU controller, for powering to described 3rd MCU controller.

In the temperature of fry nursing pool based on Internet of Things described in the utility model and salinity remote monitoring control system, described wireless terminal management devices also comprises backup battery module, and described backup battery module is connected with described 3rd power module, use for doing backup battery.

In the temperature of fry nursing pool based on Internet of Things described in the utility model and salinity remote monitoring control system, described water heating control module employing electrical heating, the heating of steam interval or high-temperature water are blended into heating mode and heat, and described water for cooling control module adopts refrigeration machine cooling or cold water cooling method to lower the temperature.

Implement the temperature of fry nursing pool based on Internet of Things of the present utility model and salinity remote monitoring control system, there is following beneficial effect: because temperature creep stress sensing module detects water temperature and the salinity of nursery pond in real time, and the water temperature of detection and salinity are sent to a MCU controller, it is wirelessly sent to wireless terminal management devices and stores by the one MCU controller, wireless terminal management devices is to the 2nd MCU controller sending controling instruction, 2nd MCU controller corresponding control water heating control module regulates larval rearing water temperature rise or controls water for cooling control module and regulates temperature of fry nursing pool to reduce, the water temperature of detection and salinity are sent to the webserver by internet simultaneously and show by wireless terminal management devices, supvr just can carry out telemanagement and check equipment and water temperature state, detection and the control of its water temperature and salinity are carried out all automatically, do not need manual detection and control, so it saves manpower, high precision control can be carried out to water temperature and salinity, improve the survival rate of seedling.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the utility model based on the structural representation in the temperature of fry nursing pool of Internet of Things and salinity remote monitoring control system embodiment.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, the every other embodiment that those of ordinary skill in the art obtain under the prerequisite of not making creative work, all belongs to the scope of the utility model protection.

At the utility model based in the temperature of fry nursing pool of Internet of Things and salinity remote monitoring control system embodiment, the structural representation of its temperature of fry nursing pool based on Internet of Things and salinity remote monitoring control system as shown in Figure 1.In Fig. 1, at least one wireless floating terminal 1 should be comprised based on the temperature of fry nursing pool of Internet of Things and salinity remote monitoring control system, radio magnet valve control terminal 2, wireless terminal management devices 3 and the webserver 4, wherein, wireless floating terminal 1 adopts floating mode, throwing in by demand is needing in the nursery pond precisely detected, wireless floating terminal 1 comprises a MCU controller 11 and temperature creep stress sensing module 12, radio magnet valve control terminal 2 comprises the 2nd MCU controller 21, water heating control module 22 and water for cooling control module 23, temperature creep stress sensing module 12 detects water temperature and the salinity of nursery pond in real time, and the water temperature of detection and salinity are sent to a MCU controller 11, the water temperature of detection and salinity are wirelessly sent to wireless terminal management devices 3 and store by the one MCU controller 11, wireless terminal management devices 3 is according to the water temperature detected and salinity, to the 2nd MCU controller 21 sending controling instruction, 2nd MCU controller 21 is opened in nursery pond, to inject hot water or control water for cooling control module 23 according to steering order corresponding control water heating control module 22 and is opened and inject cold water to regulate the water temperature of nursery pond to nursery pond, namely the 2nd MCU controller 21 regulates larval rearing water temperature rise according to steering order corresponding control water heating control module 22 or controls water for cooling control module 23 and regulates temperature of fry nursing pool to reduce, the water temperature of detection and salinity are sent to the webserver 4 by internet simultaneously and show by wireless terminal management devices 3, supvr so just can be made to carry out telemanagement by internet and check equipment and water temperature state.Whole process does not need manually to carry out detecting and controlling water temperature and salinity, so it is saved manpower, can carry out high precision control to water temperature and salinity, improves the survival rate of seedling.Simultaneously relative to manual detection, owing to manually just regularly detecting, and the present invention carries out auto-real-time monitoring, can grasp water temperature and the salinity of nursery pond in real time, so it is higher to the control accuracy of warm water and salinity.It is worth mentioning that, a MCU controller 11 and the 2nd MCU controller 21 all adopt Micro Energy Lose MCU controller.

It is worth mentioning that, in the present embodiment, water heating control module 22 can adopt electrical heating, the heating of steam interval or high-temperature water to be blended into heating mode and to heat, and refrigeration machine can be adopted to lower the temperature for water for cooling control module 23 or cold water cooling method is lowered the temperature.

In the present embodiment, wireless floating terminal 1 also comprises the first wireless communication module 13, radio magnet valve control terminal 2 also comprises the second wireless communication module 24, wireless terminal management devices 3 also comprises the 3rd wireless communication module 31, 3rd MCU controller 32 and WIFI module 33, the water temperature of detection and salinity are sent to the 3rd wireless communication module 31 by the first wireless communication module 13 by the one MCU controller 11, the water temperature of detection and salinity are sent to the 3rd MCU controller 32 and store by the 3rd wireless communication module 31, 3rd MCU controller 32 is according to the water temperature detected and salinity, corresponding steering order is sent to the 2nd MCU controller 21 by the 3rd wireless communication module 31 and the second wireless communication module 24 successively, the water temperature of detection and salinity are sent to the webserver 4 by WIFI module 33 by the 3rd MCU controller 32 simultaneously.

In the present embodiment, wireless floating terminal 1 also comprises alarm module 14, alarm module 14 is connected with a MCU controller 11, when the water temperature detected or salinity reach warning point, alarm module 14 flashes warning, and the water temperature of detection or salinity are sent to wireless terminal management devices 3 by the first wireless communication module 13 by a MCU controller 11 simultaneously.Supvr is so just reminded to take appropriate measures in time in time.

In the present embodiment, wireless terminal management devices also comprises gsm communication module 34, gsm communication module 34 is connected with the 3rd MCU controller 32, for being transmitted the water temperature and salinity that detect to the webserver 4 by GSM network, specifically can carry out by note or voice call mode the water temperature and the salinity that transmit detection exactly.It is worth mentioning that, in the present embodiment, the first wireless communication module 13, second wireless communication module 24 and the 3rd wireless communication module 31 are ZigBee wireless communication module or WIFI wireless module or wireless radio frequency modules.Certainly, under the certain situation of the present embodiment, above-mentioned, the first wireless communication module 13, second wireless communication module 24 and the 3rd wireless communication module 31 also can be the wireless communication module of other types.

In the present embodiment, wireless floating terminal 1 also comprises the first power module 15, first power module 15 and is connected with a MCU controller 11, for powering to a MCU controller 11.Radio magnet valve control terminal 2 also comprises second source module 25, and second source module 25 is connected with the 2nd MCU controller 21, for powering to the 2nd MCU controller 21.Wireless terminal management devices 3 also comprises the 3rd power module the 35, three power module 35 and is connected with the 3rd MCU controller 32, for powering to the 3rd MCU controller 32.Wireless terminal management devices 3 also comprises backup battery module 36, and backup battery module 36 is connected with the 3rd power module 35, use for doing backup battery.When external power source cuts off, at this moment backup battery module 36 can be enabled.

In a word, in the present embodiment, temperature creep stress sensing module 12 detects water temperature and salinity (the salinity content of water) in real time, and stored to wireless terminal management devices 3 detecting data upload by ZigBee wireless mode or other communication in time, if water temperature or salinity reach warning point simultaneously, wireless floating terminal 1 can be reported to the police by automatic flash, and upload the data to wireless terminal management devices 3; Radio magnet valve control terminal 2 receives the steering order from wireless terminal management devices 3, and unlatching injection hot water (high-temperature water) or cold water (water at low temperature) carry out adjustment water temperature and salinity to nursery pond as requested; Wireless terminal management devices 3 carries out communication data transfer by ZigBee wireless network or other wireless network modes and wireless floating terminal 1 and radio magnet valve control terminal 2, gathers the information of wireless floating terminal 1, and issues steering order; Wireless terminal management devices 3, simultaneously by built-in WIFI module 33 connecting Internet, makes supvr carry out telemanagement by internet and check equipment and water temperature state.It saves manpower greatly, improves the control accuracy to water temperature and salinity, improves the survival rate of seedling simultaneously.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. the temperature of fry nursing pool based on Internet of Things and salinity remote monitoring control system, it is characterized in that, comprise at least one wireless floating terminal, radio magnet valve control terminal, wireless terminal management devices and the webserver, described wireless floating terminal adopts floating mode to throw in be needed in the nursery pond detected, described wireless floating terminal comprises a MCU controller and temperature creep stress sensing module, described radio magnet valve control terminal comprises the 2nd MCU controller, water heating control module and water for cooling control module, described temperature creep stress sensing module detects water temperature and the salinity of described nursery pond in real time, and the water temperature of detection and salinity are sent to a described MCU controller, the water temperature of described detection and salinity are wirelessly sent to described wireless terminal management devices and store by a described MCU controller, described wireless terminal management devices is to described 2nd MCU controller sending controling instruction, described 2nd MCU controller regulates described larval rearing water temperature rise according to the corresponding control of described steering order described water heating control module or controls described water for cooling control module and regulates described temperature of fry nursing pool to reduce, the water temperature of described detection and salinity are sent to the described webserver by internet simultaneously and show by described wireless terminal management devices.

2. the temperature of fry nursing pool based on Internet of Things according to claim 1 and salinity remote monitoring control system, it is characterized in that, described wireless floating terminal also comprises the first wireless communication module, described radio magnet valve control terminal also comprises the second wireless communication module, described wireless terminal management devices also comprises the 3rd wireless communication module, 3rd MCU controller and WIFI module, the water temperature of described detection and salinity are sent to described 3rd wireless communication module by described first wireless communication module by a described MCU controller, the water temperature of described detection and salinity are sent to described 3rd MCU controller and store by described 3rd wireless communication module, corresponding steering order is sent to described 2nd MCU controller by described 3rd wireless communication module and the second wireless communication module by described 3rd MCU controller successively, the water temperature of described detection and salinity are sent to the described webserver by described WIFI module by described 3rd MCU controller simultaneously.

3. the temperature of fry nursing pool based on Internet of Things according to claim 2 and salinity remote monitoring control system, it is characterized in that, described wireless terminal management devices also comprises gsm communication module, and described gsm communication module is connected with described 3rd MCU controller, for being transmitted water temperature and the salinity of described detection to the described webserver by GSM network.

4. the temperature of fry nursing pool based on Internet of Things according to claim 2 and salinity remote monitoring control system, it is characterized in that, described wireless floating terminal also comprises alarm module, described alarm module is connected with a MCU controller, when the water temperature of described detection or salinity reach warning point, described alarm module flashes warning, and the water temperature of described detection or salinity are sent to described wireless terminal management devices by described first wireless communication module by a described MCU controller simultaneously.

5. the temperature of fry nursing pool based on Internet of Things according to claim 2 to 4 any one and salinity remote monitoring control system, it is characterized in that, described first wireless communication module, the second wireless communication module and the 3rd wireless communication module are ZigBee wireless communication module or WIFI wireless module or wireless radio frequency modules.

6. the temperature of fry nursing pool based on Internet of Things according to claim 5 and salinity remote monitoring control system, it is characterized in that, described wireless floating terminal also comprises the first power module, and described first power module is connected with a described MCU controller, for powering to a described MCU controller.

7. the temperature of fry nursing pool based on Internet of Things according to claim 5 and salinity remote monitoring control system, it is characterized in that, described radio magnet valve control terminal also comprises second source module, and described second source module is connected with described 2nd MCU controller, for powering to described 2nd MCU controller.

8. the temperature of fry nursing pool based on Internet of Things according to claim 5 and salinity remote monitoring control system, it is characterized in that, described wireless terminal management devices also comprises the 3rd power module, and described 3rd power module is connected with described 3rd MCU controller, for powering to described 3rd MCU controller.

9. the temperature of fry nursing pool based on Internet of Things according to claim 8 and salinity remote monitoring control system, it is characterized in that, described wireless terminal management devices also comprises backup battery module, and described backup battery module is connected with described 3rd power module, use for doing backup battery.

10. the temperature of fry nursing pool based on Internet of Things according to claim 1 and salinity remote monitoring control system, it is characterized in that, described water heating control module employing electrical heating, the heating of steam interval or high-temperature water are blended into heating mode and heat, and described water for cooling control module adopts refrigeration machine cooling or cold water cooling method to lower the temperature.