CN107173300B - Leiocassis longirostris breeding system based on dissolved oxygen is adjusted in atmospheric pressure change - Google Patents

Abstract

The invention discloses bullhead fish culture for adjusting dissolved oxygen based on atmospheric pressure changeA cloning system, comprising: the air pressure detection unit is used for detecting an atmospheric pressure value; the dissolved oxygen detection unit is used for detecting the content D of dissolved oxygen in water in the fish pond; the dissolved oxygen adjusting unit adjusts the content of the dissolved oxygen in the water in the fishpond according to the instruction of the control unit; the control units are respectively at t₁、t₂……t_nThe atmospheric pressure value is obtained by the air pressure detection unit at any moment and is marked as P₁、P₂……P_nWhen | P_i‑P_i‑1And when the content is not less than M, the control unit acquires the dissolved oxygen content D in the water in the fish pond through the dissolved oxygen detection unit, compares the D with a preset dissolved oxygen content range, and controls the action of the dissolved oxygen adjusting unit according to a comparison result instruction. The invention takes the change condition of atmospheric pressure as the index for detecting and adjusting the dissolved oxygen content in water, which is beneficial to detecting and adjusting the dissolved oxygen content in water in time when the external environment changes, so that the fishpond can keep a proper water environment.

Description

Leiocassis longirostris breeding system based on dissolved oxygen is adjusted in atmospheric pressure change

Technical Field

The invention relates to the technical field of automatic breeding, in particular to a bullhead breeding system for adjusting dissolved oxygen based on atmospheric pressure change.

Background

In the longsnout catfish culture process, the adaptability of fish to the ecological environment is a problem to be considered by culture personnel. Among them, the cultivation personnel pay great attention to the regulation of the dissolved oxygen content to adapt to the living environment of the fishes. The content of dissolved oxygen in water has a close relationship with the partial pressure of oxygen in air, the temperature of water, atmospheric pressure and water quality, and under natural conditions, the oxygen content in air does not change greatly and the change degree of water quality is low, so that the temperature of water and the atmospheric pressure are important influence factors of the content of dissolved oxygen in water.

The reasons for the daily variation of the atmospheric pressure are mainly: atmospheric motion, changes in atmospheric temperature, changes in atmospheric humidity. When the atmospheric temperature and the atmospheric humidity change, the temperature of water also changes, so that the invention provides the longsnout catfish culture system for adjusting the dissolved oxygen based on the atmospheric pressure change.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides a longsnout catfish culture system for adjusting dissolved oxygen based on atmospheric pressure change.

The invention provides a longsnout catfish culture system for adjusting dissolved oxygen based on atmospheric pressure change, which comprises:

the air pressure detection unit is used for detecting an atmospheric pressure value;

the dissolved oxygen detection unit is used for detecting the content D of dissolved oxygen in water in the fish pond;

the dissolved oxygen adjusting unit is in communication connection with the control unit and is used for adjusting the content of dissolved oxygen in the water in the fishpond according to the instruction of the control unit;

the control unit is in communication connection with the air pressure detection unit and the dissolved oxygen detection unit;

a preset dissolved oxygen content range is stored in the control unit;

the control units are respectively at t₁、t₂……t_nThe atmospheric pressure value is obtained by the air pressure detection unit at any moment and is marked as P₁、P₂……P_nWhen | P_i-P_i-1When | > M is greater than or equal to |, the control unit acquires the dissolved oxygen content D in the water in the fish pond through the dissolved oxygen detection unit, compares the D with a preset dissolved oxygen content range, and controls the action of the dissolved oxygen regulation unit according to a comparison result instruction;

wherein i is more than or equal to 1 and less than or equal to n, and M is a preset value.

Preferably, a preset dissolved oxygen content range D is stored in the control unit₀₁-D₀₂；

When D is less than or equal to aD₀₁When the dissolved oxygen is detected, the control unit commands the dissolved oxygen regulating unit to act until T is more than or equal to bD₀₂When the dissolved oxygen is detected, the control unit instructs the dissolved oxygen adjusting unit to stop operating;

wherein a <1, b > 1.

Preferably, the fish pond water temperature detection device further comprises a water temperature detection unit, wherein the water temperature detection unit is used for detecting the temperature of water in the fish pond;

the control units are respectively at t₁′、t₂′……t_nThe water in the fish pond is obtained by the water temperature detection unit at any momentTemperature of (d), denoted as T₁、T₂……T_nWhen | T_j-T_j-1When | > N, the control unit obtains the content D of dissolved oxygen in the water in the fish pond through the dissolved oxygen detection unit, and when D is less than or equal to aD₀₁When the dissolved oxygen is detected, the control unit commands the dissolved oxygen regulating unit to act until T is more than or equal to bD₀₂When the dissolved oxygen is detected, the control unit instructs the dissolved oxygen adjusting unit to stop operating;

wherein j is more than or equal to 1 and less than or equal to N, and N is a preset value.

Preferably, the fish pond water temperature control device further comprises a water temperature adjusting unit, wherein the water temperature adjusting unit is in communication connection with the control unit and adjusts the temperature of water in the fish pond according to an instruction of the control unit;

the control unit is stored with a preset temperature range T₀₁-T₀₂；

When T is less than or equal to cT₀₁When the fish pond is used, the control unit instructs the water temperature adjusting unit to heat the water in the fish pond until T is more than or equal to dT₀₂When the water temperature is detected, the control unit instructs the water temperature adjusting unit to stop acting;

when T is more than or equal to eT₀₂When the fish pond is used, the control unit instructs the water temperature adjusting unit to cool the water in the fish pond until T is less than or equal to fT₀₁When the water temperature is detected, the control unit instructs the water temperature adjusting unit to stop acting;

wherein c <1, d >1, e >1, f < 1.

Preferably, the water temperature detection unit comprises a plurality of water temperature detection modules, the plurality of water temperature detection modules are respectively arranged on the bottom surface of the fish pond and four side walls inside the fish pond, and any one water temperature detection module at least comprises one temperature sensor.

Preferably, the air pressure detecting unit includes a plurality of air pressure detecting modules.

Preferably, the dissolved oxygen detection unit comprises a plurality of dissolved oxygen detection modules, and the plurality of dissolved oxygen detection modules are respectively arranged at different positions in the fish pond.

The method detects the atmospheric pressure values at different time points, compares the atmospheric pressure values of two adjacent time points, detects the dissolved oxygen content in the water in the fish pond when the atmospheric pressure values change greatly, compares the dissolved oxygen content with a preset range, and adjusts the dissolved oxygen content in the water in the fish pond when the dissolved oxygen content in the water in the fish pond deviates from the preset range, so that the dissolved oxygen content in the water in the fish pond is kept in a range suitable for the survival of fishes, thereby being beneficial to the reproduction of the fishes in the fish pond and improving the culture effect of the fishes.

Because the change of the atmospheric pressure value can directly influence the dissolved oxygen content in the water, the invention takes the change condition of the atmospheric pressure as the index for detecting and adjusting the dissolved oxygen content in the water, which is beneficial to detecting and adjusting the dissolved oxygen content in the water in time when the external environment changes, and ensures that the fish pond keeps a proper water environment. Furthermore, the invention detects the temperature of the water in the fishpond, and detects and adjusts the content of dissolved oxygen in the water in time when the temperature of the water in the fishpond changes to a greater extent; the invention starts from the factors influencing the dissolved oxygen content in water, comprehensively monitors and adjusts the dissolved oxygen content in water, provides a suitable living environment for the survival of fishes, and thus improves the culture effect and efficiency of the fishes.

Drawings

Fig. 1 is a schematic structural diagram of a leiocassis longirostris breeding system for regulating dissolved oxygen based on atmospheric pressure change.

Detailed Description

As shown in fig. 1, fig. 1 is a longsnout catfish culture system for regulating dissolved oxygen based on atmospheric pressure change, which is provided by the invention.

Referring to fig. 1, the longsnout catfish farming system based on atmospheric pressure change and dissolved oxygen regulation provided by the invention comprises:

the air pressure detection unit is used for detecting an atmospheric pressure value; the atmospheric pressure detecting unit comprises a plurality of atmospheric pressure detecting modules, the plurality of atmospheric pressure detecting modules can be arranged at different positions, atmospheric pressure values are collected from different positions, the atmospheric pressure detecting unit synthesizes detection results of the plurality of atmospheric pressure detecting modules to analyze the atmospheric pressure values, and the collection precision of the atmospheric pressure values is improved.

The dissolved oxygen detection unit is used for detecting the content D of dissolved oxygen in water in the fish pond; the dissolved oxygen detecting unit comprises a plurality of dissolved oxygen detecting modules, the dissolved oxygen detecting modules are arranged at different positions in the fish pond respectively, and the dissolved oxygen content in water in the fish pond can be collected from different positions in the fish pond, so that the detection result of the dissolved oxygen detecting unit is improved, and accurate reference basis is provided for analyzing the dissolved oxygen content in water in the fish pond by the control unit.

The dissolved oxygen adjusting unit is in communication connection with the control unit and is used for adjusting the content of dissolved oxygen in the water in the fishpond according to the instruction of the control unit;

the control unit is in communication connection with the air pressure detection unit and the dissolved oxygen detection unit;

the control unit is stored with a preset dissolved oxygen content range D₀₁-D₀₂；

The control units are respectively at t₁、t₂……t_nThe atmospheric pressure value is obtained by the air pressure detection unit at any moment and is marked as P₁、P₂……P_nWhen | P_i-P_i-1When the absolute value is more than or equal to M, the change value of the atmospheric pressure value at the adjacent moment is larger, in order to detect whether the dissolved oxygen content in the water in the fish pond is changed by the sudden change of the atmospheric pressure value, the control unit obtains the dissolved oxygen content D in the water in the fish pond through the dissolved oxygen detection unit, compares the D with a preset dissolved oxygen content range, and controls the action of the dissolved oxygen regulation unit according to the comparison result instruction; specifically, the method comprises the following steps: when D is less than or equal to aD₀₁And the control unit instructs the dissolved oxygen regulating unit to control the action of the dissolved oxygen regulating unit, and the dissolved oxygen regulating unit is used for regulating the dissolved oxygen content in the water in the fish pond until T is more than or equal to bD₀₂When the fish pond is used, the control unit instructs the dissolved oxygen regulating unit to stop acting, so that the content of the dissolved oxygen in the water in the fish pond is kept in a range suitable for the survival of the fishes, and the growth level and the efficiency of the fishes are improved;

wherein i is more than or equal to 1 and less than or equal to n, M is a preset value, and a is less than 1 and b is greater than 1.

In a further embodiment, the device further comprises a water temperature detection unit, wherein the water temperature detection unit is used for detecting the temperature of water in the fishpond; the temperature detecting unit comprises a plurality of temperature detecting modules, the temperature detecting modules are respectively arranged on the bottom surface of the fish pond and four side walls inside the fish pond, any one of the temperature detecting modules at least comprises a temperature sensor, the temperature of water in the fish pond can be collected from different positions by the aid of the temperature detecting modules, the influence of fish school gathering or separation on a water temperature detecting result is effectively avoided, and the accuracy and the precision of collecting the temperature of the water in the fish pond by the temperature detecting modules are improved. The temperature of the water in the fishpond is monitored in real time, and when the temperature of the water in the fishpond is changed greatly, the dissolved oxygen content in the water in the fishpond is adjusted in time, so that the dissolved oxygen content in the water in the fishpond is prevented from being influenced by the change of the temperature of the water in the fishpond; specifically, the method comprises the following steps:

the control units are respectively at t₁′、t₂′……t_nThe temperature of the water in the fishpond is acquired through the water temperature detection unit at any moment and is recorded as T₁、T₂……T_nWhen | T_j-T_j-1If the content of D is not more than aD, the control unit obtains the content of D in the water in the fish pond through the dissolved oxygen detection unit, and if the content of D is not more than aD, the control unit obtains the content of D in the water in the fish pond through the dissolved oxygen detection unit₀₁In the process, the dissolved oxygen content in the water in the fish pond is low, and in order to avoid the influence of the water environment on the survival of the fish, the control unit instructs the dissolved oxygen regulating unit to act until T is more than or equal to bD₀₂When the fish pond is used, the control unit instructs the dissolved oxygen regulating unit to stop acting, and the dissolved oxygen regulating unit is utilized to control the content of the dissolved oxygen in the water in the fish pond to be in a proper range;

wherein j is more than or equal to 1 and less than or equal to N, and N is a preset value.

According to the embodiment, the change of the atmospheric pressure and the change of the water temperature in the fish pond are used as trigger conditions for detecting and adjusting the content of dissolved oxygen in the water in the fish pond, so that the influence of the change of the atmospheric pressure and the change of the water temperature on the content of the dissolved oxygen in the water in the fish pond can be avoided, a water environment suitable for survival and growth is always provided for the fishes, and the growth effect and the culture efficiency of the fishes are improved.

In a further embodiment, the fish pond water temperature control device further comprises a water temperature adjusting unit, wherein the water temperature adjusting unit is in communication connection with the control unit and adjusts the temperature of water in the fish pond according to an instruction of the control unit;

the control unit is stored with a preset temperature range T₀₁-T₀₂；

When T is less than or equal to cT₀₁And when the temperature of the water in the fish pond is lower than the actual temperature of the water in the fish pond, the control unit instructs the water temperature adjusting unit to control the water temperature adjusting unit to heat the water in the fish pond until T is more than or equal to dT to avoid the influence of low water temperature on the survival of fishes₀₂When the fish pond is in use, the control unit instructs the water temperature adjusting unit to stop acting, and the water temperature in the fish pond is kept in a proper temperature range;

when T is more than or equal to eT₀₂The control unit instructs the water temperature adjusting unit to cool the water in the fish pond until T is less than or equal to fT, so as to prevent the high water temperature from influencing the survival, feeding and other behaviors of the fish₀₁When the fish grows, the control unit instructs the water temperature adjusting unit to stop acting, so that the proper survival and water environment temperature is provided for the fish, and the growth effect of the fish is improved;

wherein c <1, d >1, e >1, f < 1.

This embodiment detects the atmospheric pressure value at different time points, and compare the atmospheric pressure value to two adjacent time points, and when the atmospheric pressure value change is great, detect the aquatic dissolved oxygen content in the fish pond, and compare dissolved oxygen content and preset scope, when the aquatic dissolved oxygen content deviates from preset scope in the fish pond, take measures to adjust the aquatic dissolved oxygen content in the fish pond, make the aquatic dissolved oxygen content keep being suitable for the within range that fish survived in the fish pond, be favorable to the reproduction of fish in the fish pond and improve the breed effect of fish.

Because the change of the atmospheric pressure value can directly influence the dissolved oxygen content in the water, the change condition of the atmospheric pressure is used as an index for detecting and adjusting the dissolved oxygen content in the water, which is beneficial to timely detecting and adjusting the dissolved oxygen content in the water when the external environment changes, so that the fishpond can maintain a proper water environment. Further, detecting the temperature of the water in the fish pond, and detecting and adjusting the content of dissolved oxygen in the water in time when the temperature change degree of the water in the fish pond is large; this embodiment is from the factor that influences aquatic dissolved oxygen content, comprehensively monitors and adjusts aquatic dissolved oxygen content, provides suitable living environment for fish existence to improve the breed effect and the efficiency of fish.

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 the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (5)

1. The utility model provides a longsnout catfish farming systems based on atmospheric pressure changes adjusts dissolved oxygen which characterized in that includes:

the air pressure detection unit is used for detecting an atmospheric pressure value;

the dissolved oxygen detection unit is used for detecting the content D of dissolved oxygen in water in the fish pond;

the dissolved oxygen adjusting unit is in communication connection with the control unit and is used for adjusting the content of dissolved oxygen in the water in the fishpond according to the instruction of the control unit;

the control unit is in communication connection with the air pressure detection unit and the dissolved oxygen detection unit;

a preset dissolved oxygen content range is stored in the control unit;

the control units are respectively at t₁、t₂……t_nThe atmospheric pressure value is obtained by the air pressure detection unit at any moment and is marked as P₁、P₂……P_nWhen | P_i-P_i-1When | > M is greater than or equal to |, the control unit acquires the dissolved oxygen content D in the water in the fish pond through the dissolved oxygen detection unit, compares the D with a preset dissolved oxygen content range, and controls the action of the dissolved oxygen regulation unit according to a comparison result instruction;

wherein i is more than or equal to 1 and less than or equal to n, and M is a preset value;

the control unit is stored with a preset dissolved oxygen content range D₀₁-D₀₂；

When D is less than or equal to aD₀₁When the oxygen is dissolved, the control unit commands the dissolved oxygen regulating unit to act until D is more than or equal to bD₀₂When the dissolved oxygen is detected, the control unit instructs the dissolved oxygen adjusting unit to stop operating;

wherein a <1, b > 1;

the device also comprises a water temperature detection unit, wherein the water temperature detection unit is used for detecting the temperature of water in the fishpond;

the control units are respectively at t₁´、t₂´……t_nThe temperature of the water in the fish pond is acquired through the water temperature detection unit at' moment and is recorded as T₁、T₂……T_nWhen | T_j-T_j-1When | > N, the control unit obtains the content D of dissolved oxygen in the water in the fish pond through the dissolved oxygen detection unit, and when D is less than or equal to aD₀₁When the dissolved oxygen is detected, the control unit commands the dissolved oxygen regulating unit to act until D is more than or equal to bD₀₂When the dissolved oxygen is detected, the control unit instructs the dissolved oxygen adjusting unit to stop operating;

wherein j is more than or equal to 1 and less than or equal to N, and N is a preset value.

2. The longsnout catfish farming system capable of adjusting dissolved oxygen based on atmospheric pressure change according to claim 1, further comprising a water temperature adjusting unit, wherein the water temperature adjusting unit is in communication connection with the control unit and adjusts the temperature of water in the fish pond according to an instruction of the control unit;

the control unit is stored with a preset temperature range T₀₁-T₀₂；

When T is less than or equal to cT₀₁When the fish pond is used, the control unit instructs the water temperature adjusting unit to heat the water in the fish pond until T is more than or equal to dT₀₂When the water temperature is detected, the control unit instructs the water temperature adjusting unit to stop acting;

when T is more than or equal to eT₀₂When the fish pond is used, the control unit instructs the water temperature adjusting unit to cool the water in the fish pond until T is less than or equal to fT₀₁When the water temperature is detected, the control unit instructs the water temperature adjusting unit to stop acting;

wherein c <1, d >1, e >1, f < 1.

3. The longsnout catfish farming system capable of adjusting dissolved oxygen based on atmospheric pressure change according to claim 1, wherein the water temperature detection unit comprises a plurality of water temperature detection modules, the plurality of water temperature detection modules are respectively arranged on the bottom surface of the fish pond and four side walls inside the fish pond, and any one water temperature detection module comprises at least one temperature sensor.

4. The longsnout catfish farming system that adjusts dissolved oxygen based on atmospheric pressure changes of claim 1, wherein the atmospheric pressure detection unit includes a plurality of atmospheric pressure detection modules.

5. The longsnout catfish farming system capable of adjusting dissolved oxygen based on atmospheric pressure change according to claim 1, wherein the dissolved oxygen detection unit comprises a plurality of dissolved oxygen detection modules, and the plurality of dissolved oxygen detection modules are respectively arranged at different positions in the fish pond.

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