CN213095590U - Oxygen-increasing machine for fish pond - Google Patents

Abstract

The utility model discloses a pond oxygen-increasing machine, including MCU, oxygen content sensor, current sensor, driver, motor, oxygenation pump, current sensor, APP and high in the clouds database. The utility model discloses a structure not only realizes can not only carrying out oxygenation and throw the food to different kinds of breed fish, the geographic environment of different regions and different weather come the automation to the pond, it still realizes throwing the food requirement etc. and can select out the exact mode of raising through high in the clouds database for can raising out the required specific oxygen content of characteristic fish article, make it have the advantage that raises output and economic benefits height, it has solved the tradition effectively and has adopted fool oxygenation pump to carry out the oxygenation to the pond, the oxygenation pump of this kind of structure can't be according to the kind of different breed fishes, different regional geographic environment, the difference is thrown the food requirement, the condition such as the specific oxygen content of different weather and characteristic fish article needs and design out exact mode of raising etc. and lead to it to have the problem of raising output low and economic benefits low.

Description

Oxygen-increasing machine for fish pond

Technical Field

The utility model relates to a fishpond oxygen-increasing machine.

Background

The traditional fishpond generally adopts a fool type control oxygenation pump to oxygenate, the oxygenation pump with the structure not only needs to be started and stopped by hands, but also needs to be fed to the fishpond by hands, and a correct feeding mode is not designed according to conditions such as different fish breeding types, different regional geographic environments, different feeding requirements, different weather, specific oxygen content required for feeding special fish products and the like, so that the current fishpond generally has the defects of low feeding yield, low economic benefit and the like.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a pond oxygen-increasing machine, its holistic structural design has not only realized can be to different kinds of breed fish, different regional geographical environment and different weather come automatic carry out oxygenation and throw the food to the pond, it still realizes can breed out the required specific oxygen content of characteristic fish article and specific throw edible requirement etc. and can select out exact raising mode through high in the clouds database, make it have and raise output and advantage that economic benefits is high, it has solved the tradition effectively and has adopted fool's oxygenation pump to carry out the oxygenation to the pond and lead to it to have and raise output low and problem that economic benefits is low. The utility model discloses a realize through following technical scheme:

pond oxygen-increasing machine includes: MCU, oxygen content sensor, current sensor, driver, motor, oxygenation pump, current sensor, APP and high in the clouds database, MCU: the controller is respectively connected with the oxygen content sensor, the current sensor, the driver and the APP control, and can output control signals to the driver after calculation, so that the driver can control the motor to work; an oxygen content sensor: the system is used for monitoring the oxygen content in water and transmitting the monitored oxygen content data information to a cloud database through the APP; APP: the system is respectively in bidirectional transmission connection with the cloud database and the MCU, analyzes and calculates related data through the cloud database, and can feed back information respectively sensed by the oxygen content sensor and the current sensor to the cloud database; the driver is respectively connected with the MCU, the automatic feeding device and the motor in a conveying way, the motor is also electrically connected with the oxygenation pump, and the motor is connected with the MCU through a current sensor.

Preferably, the APP is a mobile device, which includes tablet computers and other mobile devices such as smart phones.

Preferably, the MCU is connected with the cloud database through the APP.

Preferably, the oxygen content sensor, the current sensor and the driver are respectively connected with the MCU in a one-way transmission mode.

Preferably, the automatic food feeding equipment is connected with the driver in a one-way conveying mode, and the MCU is connected with the automatic food feeding equipment through the driver.

Preferably, the driver is in one-way conveying connection with the motor, the motor is in one-way conveying connection with the oxygenation pump, and the MCU is connected with the oxygenation pump sequentially through the driver and the motor.

Preferably, the MCU is a single chip microcomputer, the APP is respectively connected with the cloud database and the MCU through wifi, so that a user can send a control command to the MCU through the APP, the working principle that the MCU can control the operation of each part after receiving the control command is common general knowledge, and the working principle is not explained in detail here.

Preferably, the oxygen sensor can be, but is not limited to, an oxygen sensor manufactured by Shaanxi Xian model GWQ-DO; the current sensor can adopt but is not limited to a current sensor with the model of MIK-DJI/DZI-A in Hangzhou Zhejiang. The drive may be, but is not limited to, a drive of the type AQMD3630NS-a, having a country of origin. The automatic feeding device is a fishpond feeder or a feed spreader, the specific structure and the working principle of which are already common knowledge and are not explained in detail herein, and the feed spreader with the model of Yukang and the model of 23525 can be adopted but is not limited.

Preferably, the MCU of the oxygen increasing machine for the fish pond is matched with the APP and the cloud database for use, so that three working modes can be set through the APP, wherein the three working modes comprise a manual working mode, an automatic working mode and an intelligent working mode, and the manual working mode is controlled by one of a key or a switch arranged on one side of the body of the oxygen increasing machine, a remote control and a smart phone; it is used for monitoring the oxygen content in aqueous and is provided with the circular telegram electric current that current sensor comes the induction motor through being provided with oxygen content sensor, and the user can input each item work participation of each part operation through APP among the mobile device, makes MCU carry out analysis, contrast and operation according to the parameter of user's input and the parameter that oxygen content sensor and current sensor sensed respectively to can control motor work according to the result of calculating out. The APP is connected with the cloud database and the MCU through wifi respectively, the different fish breeding types, different regional geographic environments and different weather breeding methods are stored in the cloud database, the oxygen content and the feeding method parameters required for breeding the special fish breeding types can be provided for users to refer and select, and then the users can select the best breeding method from the APP according to different fish products, different regional geographic environments, different weather, different oxygen content requirements and different feeding requirements, so that the breeding yield and the economic benefit of the fish can be greatly improved.

The utility model discloses a fishpond aerator, which combines MCU, an oxygen content sensor, a current sensor, a driver, a motor, an aeration pump, a current sensor, APP and a cloud database for use, so that the cloud database of the utility model can be connected with the MCU through the APP, because the cloud database stores different fish products in different areas and different weather, the users can obtain the best breeding method by self-receiving, the user can directly browse or read various different fish culture methods stored in the cloud database through APP (mobile devices such as smart phones or tablet computers), meanwhile, a user can set various working parameters for controlling the operation of each component and send control signals to the MCU by using the APP and adopting wifi, so that the MCU can control the operation of each component according to control commands or parameters selected or set by the user at the APP; the oxygen content sensor is arranged to monitor the oxygen content in water, the current sensor is arranged to sense the electrifying current of the motor, the oxygen content sensor and the current sensor can respectively transmit the monitored signals to the MCU, the MCU carries out independent operation and sends a control command to the driver according to the calculation result, so that the driver can respectively control the automatic feeding equipment to feed food into the fishpond and control the motor to drive the oxygenation pump to start up after receiving the control command; if the oxygen content sensor monitors that the oxygen content in the water is less than a set standard value, the MCU sends a starting signal to the driver, so that the driver drives the oxygenation pump to start and operate by controlling the motor to start; when the oxygen content sensor monitors that the oxygen content in the water is greater than or equal to a set standard value, the MCU sends a closing signal to the driver, so that the driver controls the motor to be closed to stop the oxygen increasing pump; the automatic feeding equipment can be automatically started according to the preset time of the MCU to feed the fishpond; the integral structural design of the fish pond oxygen increasing and feeding device not only can automatically increase oxygen and feed fish ponds aiming at different types of cultured fish, geographic environments of different regions and different weather, but also can select a correct feeding mode through the cloud database for raising specific oxygen content, specific feeding requirements and the like required by characteristic fish products, so that the high feeding yield and high economic benefit are ensured.

Drawings

For the purpose of illustration, the invention is described in detail with reference to the following preferred embodiments and the accompanying drawings.

Fig. 1 is the structural schematic diagram of the oxygen-increasing machine for fish pond of the utility model.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

In this embodiment, as shown in fig. 1, the utility model discloses a pond oxygen-increasing machine includes: MCU, oxygen content sensor, current sensor, driver, motor, oxygenation pump, current sensor, APP and high in the clouds database, MCU: the controller is respectively connected with the oxygen content sensor, the current sensor, the driver and the APP control, and can output control signals to the driver after calculation, so that the driver can control the motor to work; an oxygen content sensor: the system is used for monitoring the oxygen content in water and transmitting the monitored oxygen content data information to a cloud database through the APP; APP: the system is respectively in bidirectional transmission connection with the cloud database and the MCU, analyzes and calculates related data through the cloud database, and can feed back information respectively sensed by the oxygen content sensor and the current sensor to the cloud database; the driver is respectively connected with the MCU, the automatic feeding device and the motor in a conveying way, the motor is also electrically connected with the oxygenation pump, and the motor is connected with the MCU through a current sensor.

In one embodiment, the APP is a mobile device, which includes tablet computers, smart phones and other mobile devices.

In one embodiment, the MCU is connected to the cloud database through the APP.

In one embodiment, the oxygen content sensor, the current sensor and the driver are respectively connected with the MCU in a unidirectional transmission manner.

In one embodiment, the automatic feeding device is in one-way transmission connection with the driver, and the MCU is connected with the automatic feeding device through the driver.

In one embodiment, the driver is in one-way transmission connection with the motor, the motor is in one-way transmission connection with the oxygenation pump, and the MCU is connected with the oxygenation pump sequentially through the driver and the motor.

In one embodiment, the use method of the oxygen increasing machine for the fishpond comprises the following steps: the cloud database can be in control connection with the MCU through the APP, because the cloud database stores different fish products in different areas of geographic environments and different weather requirements and different feeding methods, a user can obtain an optimal breeding method through self-connection, and the user can directly browse or read the breeding method of the different fish products stored in the cloud database through the APP (namely mobile equipment such as a smart phone or a tablet personal computer), meanwhile, after the user uses the APP and connects wifi, the user can set various working parameters for controlling the operation of each part to the MCU and send control signals to the MCU, so that the MCU can control the operation of each part according to control commands or parameters selected or set by the user at the APP; the oxygen content sensor is arranged to monitor the oxygen content in the water, the current sensor is arranged to sense the electrifying current of the motor, the oxygen content sensor and the current sensor can respectively transmit the monitored signals to the MCU, the MCU carries out independent operation, and carries out comparison, analysis and judgment with numerical values preset by a user, and sends a control command to the driver according to the calculated judgment result, so that the driver can respectively control the automatic feeding equipment to feed food into the fishpond and control the motor to start to drive the oxygen increasing pump to work after receiving the control command; if the oxygen content sensor monitors that the oxygen content in the water is less than a set standard value, the MCU sends a starting signal to the driver, so that the driver can control the starting operation of the motor after receiving the signal, and the motor can drive the oxygenation pump to start to operate when being started; when the oxygen content sensor monitors that the oxygen content in the water is greater than or equal to a set standard value, the MCU sends a closing signal to the driver, so that the driver controls the motor to be closed to stop the oxygen increasing pump; the automatic feeding equipment can be automatically started according to the preset time of the MCU to feed the fishpond; the whole structural design of the fish pond oxygen increasing and feeding device can automatically increase oxygen and feed the fish pond aiming at different types of cultured fish, geographic environments of different regions and different weather, and can select a correct feeding mode through the cloud database for the specific oxygen content and the specific feeding requirement and the like required by characteristic fish products, so that the high feeding yield and high economic benefit are ensured, the working process of the fish pond feeding device does not need hands to participate in the work, the labor intensity of workers can be reduced, the labor cost is reduced, and the fish pond feeding device is more convenient to use.

The utility model discloses a pond oxygen-increasing machine, including MCU, oxygen content sensor, current sensor, driver, motor, oxygenation pump, current sensor, APP and high in the clouds database. The utility model discloses holistic structural design has not only realized can be to different types breed fish, different regional geographical environment and different weather come automatic carry out oxygenation and throw the food to the pond, it still realizes throwing the food requirement etc. and can select out the exact mode of raising through high in the clouds database for can raising out the required specific oxygen content of characteristic fish article, make it have the advantage that raises output and economic benefits is high, it has solved the tradition effectively and has adopted fool's oxygenation pump to carry out the oxygenation to the pond, the oxygenation pump of this type of structure can't be according to the type of different breed fishes, different regional geographical environment, the different requirement of throwing the food, different weather and for raising out conditions such as specific oxygen content of characteristic fish article needs and design out exact mode of raising and etc. and lead to it to have the problem of raising output low with economic benefits.

The above-mentioned embodiments are merely examples of the present invention, and are not intended to limit the scope of the invention, which is defined by the claims and the equivalents of the principles and basic structures of the invention.

Claims (6)

1. Pond oxygen-increasing machine, its characterized in that includes: MCU, oxygen content sensor, current sensor, driver, motor, oxygenation pump, current sensor, APP and high in the clouds database, MCU: the controller is respectively connected with the oxygen content sensor, the current sensor, the driver and the APP control, and can output control signals to the driver after calculation, so that the driver can control the motor to work; an oxygen content sensor: the system is used for monitoring the oxygen content in water and transmitting the monitored oxygen content data information to a cloud database through the APP; APP: the system is respectively in bidirectional transmission connection with the cloud database and the MCU, analyzes and calculates related data through the cloud database, and can feed back information respectively sensed by the oxygen content sensor and the current sensor to the cloud database; the driver is respectively connected with the MCU, the automatic feeding device and the motor in a conveying way, the motor is also electrically connected with the oxygenation pump, and the motor is connected with the MCU through a current sensor.

2. The oxygen-increasing machine for fish pond according to claim 1, characterized in that: the APP is a mobile device, and comprises a tablet computer and a smart phone.

3. The oxygen-increasing machine for fish pond according to claim 1, characterized in that: MCU passes through APP and is connected with high in the clouds database.

4. The oxygen-increasing machine for fish pond according to claim 1, characterized in that: the oxygen content sensor, the current sensor and the driver are respectively connected with the MCU in a one-way conveying way.

5. The oxygen-increasing machine for fish pond according to claim 1, characterized in that: the automatic food feeding equipment is connected with the driver in a one-way conveying mode, and the MCU is connected with the automatic food feeding equipment through the driver.

6. The oxygen-increasing machine for fish pond according to claim 1, characterized in that: the driver is connected with the motor in a one-way conveying mode, the motor is connected with the oxygenation pump in a one-way conveying mode, and the MCU is connected with the oxygenation pump sequentially through the driver and the motor.

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