CN215454794U - Fishery intelligent control instrument with wireless remote control for water quality detection and oxygen increasing - Google Patents

Abstract

The utility model discloses a fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing in the field of aquaculture, which comprises a supporting seat, wherein a mounting plate is mounted at the top of the supporting seat, an oxygen increasing device is mounted on the mounting plate, a control box is mounted on the mounting plate on the right side of the oxygen increasing device, a feeding box is mounted on the mounting plate on the right side of the control box, a feeding nozzle is arranged at the bottom of the feeding box, a discharging hole is formed in the mounting plate under the feeding nozzle, a shielding device is mounted at the bottom of the feeding box on the right side of the feeding nozzle, and the shielding device comprises: the feeding device comprises a motor and an eccentric turntable, wherein the motor is fixed at the bottom of the feeding box, an output shaft of the motor is connected with the eccentric turntable, a control processor, a storage battery and an inverter are installed in a control box, and a solar power generation panel is installed at the top of the control box. The utility model has the advantages of integrated control, convenient feeding, convenient oxygenation, convenient water quality detection and energy conservation.

Description

Fishery intelligent control instrument with wireless remote control for water quality detection and oxygen increasing

Technical Field

The utility model relates to the field of aquaculture, in particular to a fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing functions.

Background

Aquaculture is the production activity of breeding, cultivating and harvesting aquatic animals and plants under artificial control. Generally comprises the whole process of cultivating aquatic products from seedlings under artificial feeding management. In a broad sense, this may also include the proliferation of aquatic resources.

Current aquaculture needs artificial when feeding to eat by the raiser in the pond with the fodder input, and is comparatively troublesome, and need open the oxygenation pump again when oxygenating to the pond, and the operation is comparatively loaded down with trivial details, consequently, to above current situation, an integrated control of urgent need development feeds and eats the convenience, and the appearance is controlled to oxygenation convenient fishery intelligence to overcome not enough in the current practical application, satisfy current demand.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing, and aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides an appearance is controlled to fishery intelligence of water quality testing and oxygenation that possesses wireless remote control, includes the supporting seat, the mounting panel is installed at the top of supporting seat, install the oxygenation device on the mounting panel, the right side of oxygenation device installs the control box on the mounting panel, the right side of control box installs the feeding box on the mounting panel, the bottom of feeding the case is provided with throws the material mouth, throw the material mouth under seted up the unloading hole on the mounting panel, throw the right side of material mouth and install in the bottom of feeding the case and shelter from the device, shelter from the device and include: the feeding device comprises a motor and an eccentric turntable, wherein the motor is fixed at the bottom of the feeding box, an output shaft of the motor is connected with the eccentric turntable, a control processor, a storage battery and an inverter are installed in the control box, and a solar power generation panel is installed at the top of the control box.

As a further scheme of the utility model: the oxygenation device comprises: oxygen-increasing machine, shunt tubes, exhaust spherical shell and exhaust hole, the oxygen-increasing machine is fixed in the upside of mounting panel, the shunt tubes is installed in the downside of mounting panel, the oxygen-increasing machine links to each other with the shunt tubes, the shunt tubes is the torus shape, the equipartition has a plurality of exhaust spherical shells on the shunt tubes, be provided with a plurality of exhaust holes on the exhaust spherical shell.

As a still further scheme of the utility model: and a water quality detector is arranged on the lower side of the mounting plate.

As a still further scheme of the utility model: the aerator, the motor, the control processor and the water quality detector are respectively electrically connected with the inverter.

As a still further scheme of the utility model: the aerator, the motor and the water quality detector are respectively electrically connected with the control processor.

As a still further scheme of the utility model: the control box is also provided with a PCB circuit board, the PCB circuit board comprises a voltage sampling module, an ACDC power supply module, a radio frequency module, an MCU processor module, a key module, an indicator light module, a current sampling module, a magnetic latching relay module, a sampling circuit module, a PH value sensor, an ammonia nitrogen sensor and an oxygen dissolving instrument, a power inlet wire of a power supply end adopts three-phase four-wire input and is connected to the voltage sampling module and the ACDC power supply module, the ACDC power supply module is connected with the radio frequency module and supplies power, the radio frequency module is connected with the MCU processor module and provides wireless communication data, the key module is connected with the MCU processor module and is used for providing control command data, the indicator light module is connected with the MCU processor module and is used for feeding back signal state prompt, the current sampling module is connected with the MCU processor module and is used for feeding back output current, and the current sampling module is also connected with the magnetic latching relay module and is used for controlling the work of external equipment, the MCU processor module is also respectively connected with a PH value sensor, an ammonia nitrogen sensor and an oxygen dissolving instrument through a sampling circuit module, and the radio frequency module is wirelessly connected with a remote controller.

Compared with the prior art, the utility model has the beneficial effects that: when the fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing functions is used, the control processor is controlled through the wireless remote controller, the motor is controlled to rotate through the control processor, the motor drives the eccentric turntable to rotate, and the feeding nozzle is opened and closed by adjusting the position of the eccentric turntable, so that feeding is more convenient; the control processor controls the starting of the aerator, air is pumped into the diversion pipe and the exhaust spherical shell through the aerator, and the air is discharged into water from the exhaust hole, so that the oxygen content of the water is increased; controlling a water quality detector to detect the water quality through a processor; the solar panel is used for charging the storage battery, and the inverter is used for converting direct current in the storage battery into alternating current for output, so that energy is saved. In conclusion, the utility model has the advantages of integrated control, convenient feeding, convenient oxygenation, convenient water quality detection and energy conservation.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the utility model taken along line A-A in FIG. 1.

Fig. 3 is a partial view at B of fig. 1 of the present invention.

Fig. 4 is a schematic view of the open state of the feeding box of the present invention.

Fig. 5 is a block diagram of a circuit module according to a second embodiment.

In the figure: 1-a support base, 2-a mounting plate, 201-a blanking hole, 3-an oxygenation device, 301-an oxygenation device, 302-a shunt pipe, 303-an exhaust spherical shell, 304-an exhaust hole, 4-a feeding box, 401-a feeding nozzle, 5-a shielding device, 501-a motor, 502-an eccentric turntable, 6-a control box, 7-a control processor, 8-a storage battery, 9-an inverter, 10-a solar power generation panel, 11-a water quality detector and 100-a voltage sampling module; 200-ACDC power module; 300-a radio frequency module; 400-MCU processor module; 500-a key module; 600-an indicator light module; 701-a current sampling module; 702-a magnetic latching relay module; 800-a sampling circuit module; 901-PH sensor; 902-ammonia nitrogen sensor; 903-dissolved oxygen instrument; 310-remote control.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

In the description of the embodiments of the present invention, it should be noted that the terms "first", "second" and "third" are used for the sake of clarity in describing the numbering of the components of the product and do not represent any substantial difference, unless explicitly stated or limited otherwise. The directions of "up", "down", "left" and "right" are all based on the directions shown in the attached drawings. Specific meanings of the above terms in the embodiments of the present invention can be understood by those of ordinary skill in the art according to specific situations.

It is to be understood that, unless otherwise expressly specified or limited, the term "coupled" is used broadly, and may, for example, refer to directly coupled devices or indirectly coupled devices through intervening media. The specific meaning of the above terms in the embodiments of the present invention can be understood in specific cases by those skilled in the art.

Example 1:

referring to fig. 1 to 4, in an embodiment of the present invention, a fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing includes a support base 1, the support base 1 is fixed in an aquaculture pond, an installation plate 2 is installed on the top of the support base 1, an oxygen increasing device 3 is installed on the installation plate 2, and the oxygen increasing device 3 includes: oxygen-increasing machine 301, shunt tubes 302, exhaust spherical shell 303 and exhaust hole 304, oxygen-increasing machine 301 is fixed in the upside of mounting panel 2, shunt tubes 302 is installed in the downside of mounting panel 2, oxygen-increasing machine 301 links to each other with shunt tubes 302, shunt tubes 302 is the annular shape, the equipartition has a plurality of exhaust spherical shell 303 on the shunt tubes 302, be provided with a plurality of exhaust holes 304 on the exhaust spherical shell 303, oxygenation device 3's right side is installed control box 6 on mounting panel 2, control box 6's right side is installed on mounting panel 2 and is fed food case 4, and the top of feeding case 4 is provided with the apron, the bottom of feeding case 4 is provided with throws material mouth 401, throw and seted up unloading hole 201 under material mouth 401 on mounting panel 2, the right side of throwing material mouth 401 is installed in the bottom of feeding case 4 and is sheltered from device 5, shelter from device 5 includes: motor 501 and eccentric rotary table 502, motor 501 is fixed in the bottom of feeding case 4, motor 501's output shaft links to each other with eccentric rotary table 502, through the position of adjustment eccentric rotary table 502, realizes throwing opening and closing of material mouth 401, install control treater 7, battery 8 and inverter 9 in the control box 6, control treater 7 adopts wireless remote controller control, solar panel 10 is installed at the top of control box 6, water quality testing appearance 11 is installed to the downside of mounting panel 2, inverter 9 and solar panel 10 respectively with battery 8 electric connection, oxygen-increasing machine 301, motor 501, control treater 7 and water quality testing appearance 11 respectively with inverter 9 electric connection, charge for battery 8 through solar panel 10, trun into alternating current output through inverter 9 with the direct current in the battery 8, oxygen-increasing machine 301, water quality testing appearance 11, The motor 501 and the water quality detector 11 are respectively electrically connected with the control processor 7, and the switches of the aerator 301, the motor 501 and the water quality detector 11 are controlled through the control processor 7.

The working principle of the utility model is as follows: when the fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing functions is used, the control processor 7 is controlled through the wireless remote controller, the motor 501 is controlled to rotate through the control processor 7, the motor 501 drives the eccentric turntable 502 to rotate, and the feeding nozzle 401 is opened and closed by adjusting the position of the eccentric turntable 502, so that feeding is more convenient; the control processor 7 controls the starting of the aerator 301, air is pumped into the shunt pipe 302 and the exhaust spherical shell 303 through the aerator 301, and the air is discharged into water from the exhaust hole 304, so that the oxygen content of the water is increased; the water quality detector 11 is controlled by the processor 7 to detect the water quality; the storage battery 8 is charged through the solar power generation panel 10, and direct current in the storage battery 8 is converted into alternating current through the inverter 9 to be output, so that energy is saved.

Example 2:

a fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing is disclosed, referring to figure 1, and comprises a voltage sampling module 100, an ACDC power supply module 200, a radio frequency module 300, an MCU processor module 400, a key module 500, an indicator light module 600, a current sampling module 701, a magnetic latching relay module 702, a sampling circuit module 800, a PH value sensor 901, an ammonia nitrogen sensor 902 and an oxygen dissolving instrument 903, wherein a power inlet wire of a power supply end adopts three-phase four-wire input and is connected to the voltage sampling module 100 and the ACDC power supply module 200, the ACDC power supply module 200 is connected with the radio frequency module 300 and supplies power, the radio frequency module 300 is connected with the MCU processor module 400 to provide wireless communication data, the key module 500 is connected with the MCU processor module 400 to provide control command data, the indicator light module 600 is connected with the MCU processor module 400 to feed back a signal state prompt, the current sampling module 701 is connected with the MCU processor module 400 to feed back output current, the current sampling module 701 is further connected with a magnetic latching relay module 702 for controlling the work of external equipment, the MCU processor module 400 is further connected with a PH value sensor 901, an ammonia nitrogen sensor 902 and an oxygen dissolving instrument 903 respectively through a sampling circuit module 800, and the radio frequency module 300 is in wireless connection with the remote controller 310.

The incoming line is in a three-phase four-wire system, supports single-phase/three-phase input, can control three-way output, and the power supply part comprises AC380/AC 220V-to-DC 12V and magnetic latching relay pulse signal voltage; the DC12V is converted into the voltage for the DC4V communication module, and the DC12V is converted into the power supply for the 3.3V circuit MCU and other circuits; the sampling circuit comprises three-phase input voltage sampling and 9-path (three-path equipment, three phases in each path) current sampling; the circuit comprises a 12-path relay controller circuit, a four-path key and indicator lamp circuit and a super capacitor power-down holding circuit; the MCU samples voltage and current in the operation of the equipment to judge the operation condition of the equipment and stop the aerator in time; the user can control the opening and closing of the three-way equipment through the 3-way key switch, and the state of the equipment is displayed by the indicator lamp; the water quality detection sensor samples values such as ammonia nitrogen, PH value and oxygen content, and automatically controls the aerator to work according to the sampling information; the user remotely controls the aerator according to the remote controller.

The relay is controlled by a newly released magnetic latching relay, the magnetic latching relay has the advantages that the action of the relay is controlled through a pulse signal, the state is kept by a magnetic material after the action is finished, the temperature rise of the relay due to a coil cannot occur after the relay works for a long time, and the operation of the whole equipment at normal temperature is ensured; the mechanical life of the magnetic latching relay can reach millions of times.

According to the scheme, water quality detection and control are integrated in one set of system, and the working state of the aerator is automatically controlled according to the water quality condition, so that human participation is reduced, the electric quantity is saved, and the cultivation is more worry-saving.

The scheme adopts the short-distance wireless radio frequency remote control aerator to be started and closed, and has simple function, no service charge and low hardware cost.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a fishery intelligence of quality of water measuring and oxygenation that possesses wireless remote control accuse appearance, includes supporting seat (1), its characterized in that: mounting panel (2) are installed at the top of supporting seat (1), install oxygenation device (3) on mounting panel (2), control box (6) are installed on mounting panel (2) on the right side of oxygenation device (3), the right side of control box (6) is installed on mounting panel (2) and is fed and eat case (4), the bottom of feeding case (4) is provided with throws material mouth (401), throw material mouth (401) under seted up unloading hole (201) on mounting panel (2), the right side of throwing material mouth (401) is installed in the bottom of feeding case (4) and is sheltered from device (5), shelter from device (5) and include: motor (501) and eccentric rotating disc (502), motor (501) are fixed in the bottom of feeding case (4), the output shaft of motor (501) links to each other with eccentric rotating disc (502), install control processor (7), battery (8) and dc-to-ac converter (9) in control box (6), solar panel (10) are installed at the top of control box (6).

2. The fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing functions according to claim 1, which is characterized in that: the oxygenation device (3) comprises: oxygen-increasing machine (301), shunt tubes (302), exhaust spherical shell (303) and exhaust hole (304), the upside of mounting panel (2) is fixed in oxygen-increasing machine (301), install in the downside of mounting panel (2) shunt tubes (302), oxygen-increasing machine (301) link to each other with shunt tubes (302), shunt tubes (302) are the torus shape, the equipartition has a plurality of exhaust spherical shell (303) on shunt tubes (302), be provided with a plurality of exhaust holes (304) on exhaust spherical shell (303).

3. The fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing functions according to claim 2, characterized in that: and a water quality detector (11) is installed on the lower side of the mounting plate (2).

4. The fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing functions according to claim 3, characterized in that: inverter (9) and solar panel (10) respectively with battery (8) electric connection, oxygen-increasing machine (301), motor (501), control treater (7) and water quality testing appearance (11) respectively with inverter (9) electric connection.

5. The fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing functions according to claim 4, characterized in that: the aerator (301), the motor (501) and the water quality detector (11) are respectively electrically connected with the control processor (7).

6. The fishery intelligent control instrument with wireless remote control water quality detection and oxygen increasing functions according to claim 1, which is characterized in that: the control box (6) is also provided with a PCB circuit board, the PCB circuit board comprises a voltage sampling module (100), an ACDC power supply module (200), a radio frequency module (300), an MCU processor module (400), a key module (500), an indicator light module (600), a current sampling module (701), a magnetic latching relay module (702), a sampling circuit module (800), a PH value sensor (901), an ammonia nitrogen sensor (902) and an oxygen dissolving instrument (903), a power inlet wire of a power supply end adopts three-phase four-wire input and is connected to the voltage sampling module (100) and the ACDC power supply module (200), the ACDC power supply module (200) is connected with the radio frequency module (300) and supplies power, the radio frequency module (300) is connected with the MCU processor module (400) to provide wireless communication data, the key module (500) is connected with the MCU processor module (400) to provide control command data, the indicator light module (600) is connected with the MCU processor module (400) to feed back a signal state prompt, the current sampling module (701) is connected with the MCU processor module (400) and used for feeding back output current, the current sampling module (701) is further connected with the magnetic latching relay module (702) and used for controlling the work of external equipment, the MCU processor module (400) is further connected with the PH value sensor (901), the ammonia nitrogen sensor (902) and the dissolved oxygen meter (903) through the sampling circuit module (800), and the radio frequency module (300) is wirelessly connected with the remote controller (310).

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