CN112486230A - Intelligent poultry breeding management system - Google Patents

Abstract

The invention discloses an intelligent poultry breeding management system, relates to a breeding management system, and belongs to the technical field of intelligent poultry breeding; the system comprises an environmental parameter acquisition module, a remote data transmission module, a data processing module, a user login module, a parameter adjustment module, a data storage module and an alarm module; the environment parameter acquisition module is specifically a temperature sensor, a humidity sensor, a nitrogen sensor and a dust sensor, and is used for acquiring environment parameters in the poultry breeding house and sending the acquired environment parameters to the data processing module; the remote data transmission module is responsible for automatically transmitting the mass data of the total node to a database at a different place through a GPRS network and the Internet, and storing the mass data into the data storage module according to the time sequence.

Description

Intelligent poultry breeding management system

Technical Field

The invention relates to a breeding management system, in particular to an intelligent poultry breeding management system, and belongs to the technical field of intelligent poultry breeding.

Background

In recent years, the poultry industry in China gradually takes companies or groups as breeding subjects to implement large-scale and increasingly standardized poultry production patterns. The breeding environment is an extremely important influencing factor regardless of chicken breeding or waterfowl dry breeding. Especially, under the modern feeding mode of full-closed type and high density, the control of the breeding environment in the poultry house is more important. Environmental factors in houses, which are highly relevant to poultry production, include temperature, humidity, and harmful gases in the air, such as ammonia, hydrogen sulfide, dust, carbon dioxide, and the like, and light conditions. The real-time monitoring and the real-time regulation of the environmental indexes can keep the poultry under proper conditions, which is the necessary basis for the healthy development and the normal production performance of the poultry.

At present, breeding poultry manufacturing enterprises attach importance to management and regulation of breeding environment, generally control according to monitoring indexes of temperature in a poultry house and by utilizing ventilation equipment such as a fan and a wet curtain, but monitoring parameters are single, important parameters such as ammonia gas and dust are not monitored, monitoring technology is low, intelligent degree is low, the purpose of optimal optimization and reasonable regulation and control of breeding environment can not be achieved, and the requirements of modern and standardized poultry production are not met.

In order to solve the above technical problems, the present invention provides the following technical solutions.

Disclosure of Invention

The invention aims to provide an intelligent poultry breeding management system which integrates an intelligent sensing technology, a wireless transmission technology and a modern communication technology, under the environment of a wired network and a wireless network, by utilizing a computer, a smart phone and the like to log in a system, poultry breeding environment information can be checked at any time no matter in a local place or in a different place, small environment in a house can be scientifically regulated and controlled in time according to the change of the environment information, poultry can be safely produced in a standardized breeding mode no matter in cold winter or in high-temperature summer and any abnormal external environment, normal exertion of poultry production performance can be ensured, and diseases are effectively avoided.

The purpose of the invention can be realized by the following technical scheme:

an intelligent poultry breeding management system comprises an environmental parameter acquisition module, a remote data transmission module, a data processing module, a user login module, a parameter adjustment module, a data storage module and an alarm module;

the environment parameter acquisition module is specifically a temperature sensor, a humidity sensor, a nitrogen sensor and a dust sensor, and is used for acquiring environment parameters in the poultry breeding house and sending the acquired environment parameters to the data processing module;

the remote data transmission module is responsible for automatically transmitting the mass data of the total node to a database at a different place through a GPRS network and the Internet, and storing the mass data into the data storage module according to the time sequence;

the data processing module is used for processing the environmental parameters acquired by the environmental parameter acquisition module, and the specific processing process comprises the following steps:

the method comprises the following steps: the environment parameter acquisition module acquires the temperature, the humidity, the nitrogen concentration and the dust concentration in the poultry breeding house through a temperature sensor, a humidity sensor, a nitrogen sensor and a dust sensor, and sends the acquired temperature, humidity, nitrogen concentration and dust concentration to the data processing module;

step two: after receiving the temperature, the humidity, the nitrogen concentration and the dust concentration sent by the environment parameter acquisition module, the data processing module marks the temperature, the humidity, the nitrogen concentration and the dust concentration as Wd, Sd, Nd and Fd respectively;

step three: the data processing module calls out temperature, humidity, nitrogen concentration and dust concentration threshold values suitable for poultry growth from the data storage module, wherein the temperature, humidity, nitrogen concentration and dust concentration threshold values comprise a temperature upper limit value W1, a humidity upper limit value S1, a nitrogen concentration upper limit value N1, a dust concentration upper limit value F1, a temperature lower limit value W0, a humidity lower limit value S0, a nitrogen concentration lower limit value N0 and a dust concentration lower limit value F0;

step four: comparing Wd with W1, W0, respectively; sd and S1, S0; nd and N1, N0; fd and the sizes of F1 and F0; sending the exceeded environmental parameters to an alarm module for parameter alarm;

step five: if Wd, Sd, Nd and Fd fall in the temperature, humidity, nitrogen concentration and dust concentration threshold values respectively; the poultry growth influence coefficient Yx is calculated by using a formula,

is calculated by the formula

Wherein alpha, beta, gamma and delta are fixed values of preset proportionality coefficients;

step six: setting a poultry growth influence coefficient threshold, and if the poultry growth influence coefficient Yx is within the poultry growth influence coefficient threshold, not adjusting the environment in the poultry breeding house; and if the poultry growth influence coefficient Yx is out of the poultry growth influence coefficient threshold value, sending an environmental parameter adjusting instruction to the parameter adjusting module.

The parameter adjustment module is used for adjusting the environment in the poultry breeding house after receiving a parameter adjustment instruction, and the specific adjustment process comprises the following steps:

acquiring temperature, humidity, nitrogen concentration and dust concentration values acquired by an environmental parameter acquisition module, and performing difference operation on the Wd, Sd, Nd and Fd and an upper temperature limit value W1, an upper humidity limit value S1 and an upper nitrogen concentration limit value N1 respectively;

obtaining a temperature difference Cw, a humidity difference Cs, a nitrogen concentration difference Cn and a dust concentration difference Cf, and respectively calculating the temperature, the humidity, the nitrogen concentration and the dust concentration influence coefficient, wherein the calculation formula is as follows:

Xw＝Cw/W1-W0；Xs＝Cs/S1-S0；Xn＝Cn/N1-N0；Xf＝Cf/F1-F0；

respectively comparing Xw, Xs, Xn and Xn, adjusting the parameters to the maximum, re-obtaining the environmental parameters after adjustment, and calculating the poultry growth influence coefficient Yx 'until the poultry growth influence coefficient Yx' is within the threshold of the poultry growth influence coefficient;

the process of calculating the poultry growth influence coefficient Yx' includes:

step S1: the environment parameter acquisition module acquires the temperature, the humidity, the nitrogen concentration and the dust concentration in the poultry breeding house through a temperature sensor, a humidity sensor, a nitrogen sensor and a dust sensor, and sends the acquired temperature, humidity, nitrogen concentration and dust concentration to the data processing module;

step S2: after receiving the temperature, the humidity, the nitrogen concentration and the dust concentration sent by the environment parameter acquisition module, the data processing module marks the temperature, the humidity, the nitrogen concentration and the dust concentration as Wd ', Sd', Nd 'and Fd' respectively;

step S3: the data processing module calls out temperature, humidity, nitrogen concentration and dust concentration threshold values suitable for poultry growth from the data storage module, wherein the temperature, humidity, nitrogen concentration and dust concentration threshold values comprise a temperature upper limit value W1, a humidity upper limit value S1, a nitrogen concentration upper limit value N1, a dust concentration upper limit value F1, a temperature lower limit value W0, a humidity lower limit value S0, a nitrogen concentration lower limit value N0 and a dust concentration lower limit value F0;

step S4: compare Wd' to W1, W0, respectively; sd' and S1, S0; nd' with N1, N0; fd' and the sizes of F1 and F0; sending the exceeded environmental parameters to an alarm module for parameter alarm;

step S5: if Wd ', Sd', Nd 'and Fd' respectively fall on the temperature, humidity, nitrogen concentration and dust concentration threshold values; then the poultry growth influence coefficient Yx' is calculated by using a formula,

is calculated by the formula

Wherein alpha, beta, gamma and delta are fixed values of preset proportionality coefficients;

the data storage module is used for storing the temperature, the humidity, the nitrogen concentration and the dust concentration acquired by the environmental parameter acquisition module, and storing an upper temperature limit value W1, an upper humidity limit value S1, an upper nitrogen concentration limit value N1, an upper dust concentration limit value F1, a lower temperature limit value W0, a lower humidity limit value S0, a lower nitrogen concentration limit value N0 and a lower dust concentration limit value F0.

Compared with the prior art, the invention has the beneficial effects that:

1. the data processing module is used for processing the environmental parameters acquired by the environmental parameter acquisition module, and the environmental parameter acquisition module acquires the temperature, the humidity, the nitrogen concentration and the dust concentration in the poultry breeding house through the temperature sensor, the humidity sensor, the nitrogen sensor and the dust sensor and sends the acquired temperature, humidity, nitrogen concentration and dust concentration to the data processing module; after receiving the temperature, the humidity, the nitrogen concentration and the dust concentration sent by the environment parameter acquisition module, the data processing module marks the temperature, the humidity, the nitrogen concentration and the dust concentration as Wd, Sd, Nd and Fd respectively; the data processing module calls out temperature, humidity, nitrogen concentration and dust concentration threshold values suitable for poultry growth from the data storage module, wherein the temperature, humidity, nitrogen concentration and dust concentration threshold values comprise a temperature upper limit value W1, a humidity upper limit value S1, a nitrogen concentration upper limit value N1, a dust concentration upper limit value F1, a temperature lower limit value W0, a humidity lower limit value S0, a nitrogen concentration lower limit value N0 and a dust concentration lower limit value F0; comparing Wd with W1, W0, respectively; sd and S1, S0; nd and N1, N0; fd and the sizes of F1 and F0; and sending the exceeded environmental parameters to an alarm module for parameter alarm.

2. The parameter adjusting module is used for adjusting the environment in the poultry breeding house after receiving a parameter adjusting instruction, acquiring the temperature, humidity, nitrogen concentration and dust concentration values acquired by the environment parameter acquiring module, and performing difference operation on the Wd, Sd, Nd and Fd and the upper temperature limit value W1, the upper humidity limit value S1 and the upper nitrogen concentration limit value N1 respectively; obtaining a temperature difference Cw, a humidity difference Cs, a nitrogen concentration difference Cn and a dust concentration difference Cf, and respectively calculating the temperature, the humidity, the nitrogen concentration and the dust concentration influence coefficient, wherein the calculation formula is as follows: xw ═ Cw/W1-W0; Cs/S1-S0; xn ═ Cn/N1-N0; Xf-Cf/F1-F0; respectively comparing Xw, Xs, Xn and Xn, adjusting the maximum, re-acquiring the environmental parameters after adjustment, and calculating the poultry growth influence coefficient Yx 'until the poultry growth influence coefficient Yx' is within the threshold value of the poultry growth influence coefficient.

3. The data storage module is used for storing the temperature, the humidity, the nitrogen concentration and the dust concentration acquired by the environmental parameter acquisition module, and storing an upper temperature limit value W1, an upper humidity limit value S1, an upper nitrogen concentration limit value N1, an upper dust concentration limit value F1, a lower temperature limit value W0, a lower humidity limit value S0, a lower nitrogen concentration limit value N0 and a lower dust concentration limit value F0.

Drawings

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

Fig. 1 is a schematic block diagram of the present invention.

Detailed Description

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

Referring to fig. 1, an intelligent poultry farming management system includes an environmental parameter acquisition module, a remote data transmission module, a data processing module, a user login module, a parameter adjustment module, a data storage module, and an alarm module;

the environment parameter acquisition module is specifically a temperature sensor, a humidity sensor, a nitrogen sensor and a dust sensor, and is used for acquiring environment parameters in the poultry breeding house and sending the acquired environment parameters to the data processing module;

the remote data transmission module is responsible for automatically transmitting the mass data of the total node to a database at a different place through a GPRS network and the Internet, and storing the mass data into the data storage module according to the time sequence;

the data processing module is used for processing the environmental parameters acquired by the environmental parameter acquisition module, and the specific processing process comprises the following steps:

the method comprises the following steps: the environment parameter acquisition module acquires the temperature, the humidity, the nitrogen concentration and the dust concentration in the poultry breeding house through a temperature sensor, a humidity sensor, a nitrogen sensor and a dust sensor, and sends the acquired temperature, humidity, nitrogen concentration and dust concentration to the data processing module;

step two: after receiving the temperature, the humidity, the nitrogen concentration and the dust concentration sent by the environment parameter acquisition module, the data processing module marks the temperature, the humidity, the nitrogen concentration and the dust concentration as Wd, Sd, Nd and Fd respectively;

step three: the data processing module calls out temperature, humidity, nitrogen concentration and dust concentration threshold values suitable for poultry growth from the data storage module, wherein the temperature, humidity, nitrogen concentration and dust concentration threshold values comprise a temperature upper limit value W1, a humidity upper limit value S1, a nitrogen concentration upper limit value N1, a dust concentration upper limit value F1, a temperature lower limit value W0, a humidity lower limit value S0, a nitrogen concentration lower limit value N0 and a dust concentration lower limit value F0;

step four: comparing Wd with W1, W0, respectively; sd and S1, S0; nd and N1, N0; fd and the sizes of F1 and F0; sending the exceeded environmental parameters to an alarm module for parameter alarm;

step five: if Wd, Sd, Nd and Fd fall in the temperature, humidity, nitrogen concentration and dust concentration threshold values respectively; the poultry growth influence coefficient Yx is calculated by using a formula,

is calculated by the formula

Wherein alpha, beta, gamma and delta are fixed values of preset proportionality coefficients;

step six: setting a poultry growth influence coefficient threshold, and if the poultry growth influence coefficient Yx is within the poultry growth influence coefficient threshold, not adjusting the environment in the poultry breeding house; and if the poultry growth influence coefficient Yx is out of the poultry growth influence coefficient threshold value, sending an environmental parameter adjusting instruction to the parameter adjusting module.

The parameter adjustment module is used for adjusting the environment in the poultry breeding house after receiving a parameter adjustment instruction, and the specific adjustment process comprises the following steps:

acquiring temperature, humidity, nitrogen concentration and dust concentration values acquired by an environmental parameter acquisition module, and performing difference operation on the Wd, Sd, Nd and Fd and an upper temperature limit value W1, an upper humidity limit value S1 and an upper nitrogen concentration limit value N1 respectively;

obtaining a temperature difference Cw, a humidity difference Cs, a nitrogen concentration difference Cn and a dust concentration difference Cf, and respectively calculating the temperature, the humidity, the nitrogen concentration and the dust concentration influence coefficient, wherein the calculation formula is as follows:

Xw＝Cw/W1-W0；Xs＝Cs/S1-S0；Xn＝Cn/N1-N0；Xf＝Cf/F1-F0；

respectively comparing Xw, Xs, Xn and Xn, adjusting the maximum, re-acquiring the environmental parameters after adjustment, and calculating the poultry growth influence coefficient Yx 'until the poultry growth influence coefficient Yx' is within the threshold value of the poultry growth influence coefficient.

The data storage module is used for storing the temperature, the humidity, the nitrogen concentration and the dust concentration acquired by the environmental parameter acquisition module, and storing an upper temperature limit value W1, an upper humidity limit value S1, an upper nitrogen concentration limit value N1, an upper dust concentration limit value F1, a lower temperature limit value W0, a lower humidity limit value S0, a lower nitrogen concentration limit value N0 and a lower dust concentration limit value F0.

The above formulas are all quantitative calculation, the formula is a formula obtained by acquiring a large amount of data and performing software simulation to obtain the latest real situation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

The working principle of the invention is as follows: the environment parameter acquisition module acquires the temperature, the humidity, the nitrogen concentration and the dust concentration in the poultry breeding house through a temperature sensor, a humidity sensor, a nitrogen sensor and a dust sensor, and sends the acquired temperature, humidity, nitrogen concentration and dust concentration to the data processing module; after receiving the temperature, the humidity, the nitrogen concentration and the dust concentration sent by the environment parameter acquisition module, the data processing module marks the temperature, the humidity, the nitrogen concentration and the dust concentration as Wd, Sd, Nd and Fd respectively; the data processing module calls out temperature, humidity, nitrogen concentration and dust concentration threshold values suitable for poultry growth from the data storage module, wherein the temperature, humidity, nitrogen concentration and dust concentration threshold values comprise a temperature upper limit value W1, a humidity upper limit value S1, a nitrogen concentration upper limit value N1, a dust concentration upper limit value F1, a temperature lower limit value W0, a humidity lower limit value S0, a nitrogen concentration lower limit value N0 and a dust concentration lower limit value F0; comparing Wd with W1, W0, respectively; sd and S1, S0; nd and N1, N0; fd and the sizes of F1 and F0; sending the exceeded environmental parameters to an alarm module for parameter alarm; step five: if Wd, Sd, Nd and Fd fall in the temperature, humidity, nitrogen concentration and dust concentration threshold values respectively; then the poultry growth influence coefficient Yx is calculated by the formula

Setting a poultry growth influence coefficient threshold, and if the poultry growth influence coefficient Yx is within the poultry growth influence coefficient threshold, not adjusting the environment in the poultry breeding house; and if the poultry growth influence coefficient Yx is out of the poultry growth influence coefficient threshold value, sending an environmental parameter adjusting instruction to the parameter adjusting module.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (5)

1. An intelligent poultry breeding management system is characterized by comprising an environmental parameter acquisition module, a remote data transmission module, a data processing module, a user login module, a parameter adjustment module, a data storage module and an alarm module;

the data processing module is used for processing the environmental parameters acquired by the environmental parameter acquisition module, and the specific processing process comprises the following steps:

the method comprises the following steps: the environment parameter acquisition module acquires the temperature, the humidity, the nitrogen concentration and the dust concentration in the poultry breeding house through a temperature sensor, a humidity sensor, a nitrogen sensor and a dust sensor, and sends the acquired temperature, humidity, nitrogen concentration and dust concentration to the data processing module;

step two: after receiving the temperature, the humidity, the nitrogen concentration and the dust concentration sent by the environment parameter acquisition module, the data processing module marks the temperature, the humidity, the nitrogen concentration and the dust concentration as Wd, Sd, Nd and Fd respectively;

step three: the data processing module calls out temperature, humidity, nitrogen concentration and dust concentration threshold values suitable for poultry growth from the data storage module, wherein the temperature, humidity, nitrogen concentration and dust concentration threshold values comprise a temperature upper limit value W1, a humidity upper limit value S1, a nitrogen concentration upper limit value N1, a dust concentration upper limit value F1, a temperature lower limit value W0, a humidity lower limit value S0, a nitrogen concentration lower limit value N0 and a dust concentration lower limit value F0;

step four: comparing Wd with W1, W0, respectively; sd and S1, S0; nd and N1, N0; fd and the sizes of F1 and F0; sending the exceeded environmental parameters to an alarm module for parameter alarm;

step five: if Wd, Sd, Nd and Fd fall in the temperature, humidity, nitrogen concentration and dust concentration threshold values respectively; the poultry growth influence coefficient Yx is calculated by using a formula,

is calculated by the formula

Wherein alpha, beta, gamma and delta are fixed values of preset proportionality coefficients;

step six: setting a poultry growth influence coefficient threshold, and if the poultry growth influence coefficient Yx is within the poultry growth influence coefficient threshold, not adjusting the environment in the poultry breeding house; and if the poultry growth influence coefficient Yx is out of the poultry growth influence coefficient threshold value, sending an environmental parameter adjusting instruction to the parameter adjusting module.

2. The intelligent poultry farming management system of claim 1, wherein: the parameter adjustment module is used for adjusting the environment in the poultry breeding house after receiving a parameter adjustment instruction, and the specific adjustment process comprises the following steps:

acquiring temperature, humidity, nitrogen concentration and dust concentration values acquired by an environmental parameter acquisition module, and performing difference operation on the Wd, Sd, Nd and Fd and an upper temperature limit value W1, an upper humidity limit value S1 and an upper nitrogen concentration limit value N1 respectively;

obtaining a temperature difference Cw, a humidity difference Cs, a nitrogen concentration difference Cn and a dust concentration difference Cf, and respectively calculating the temperature, the humidity, the nitrogen concentration and the dust concentration influence coefficient, wherein the calculation formula is as follows:

Xw＝Cw/W1-W0；Xs＝Cs/S1-S0；Xn＝Cn/N1-N0；Xf＝Cf/F1-F0；

respectively comparing Xw, Xs, Xn and Xn, adjusting the maximum, re-acquiring the environmental parameters after adjustment, and calculating the poultry growth influence coefficient Yx 'until the poultry growth influence coefficient Yx' is within the threshold value of the poultry growth influence coefficient.

3. The intelligent poultry farming management system of claim 1, wherein: the data storage module is used for storing the temperature, the humidity, the nitrogen concentration and the dust concentration acquired by the environmental parameter acquisition module, and storing an upper temperature limit value W1, an upper humidity limit value S1, an upper nitrogen concentration limit value N1, an upper dust concentration limit value F1, a lower temperature limit value W0, a lower humidity limit value S0, a lower nitrogen concentration limit value N0 and a lower dust concentration limit value F0.

4. The intelligent poultry farming management system of claim 1, wherein: the environment parameter acquisition module is specifically a temperature sensor, a humidity sensor, a nitrogen sensor and a dust sensor, and is used for acquiring environment parameters in the poultry breeding house and sending the acquired environment parameters to the data processing module; the remote data transmission module is responsible for automatically transmitting the mass data of the total node to a database at a different place through a GPRS network and the Internet, and storing the mass data into the data storage module according to the time sequence.

5. The intelligent poultry farming management system of claim 1, wherein: the system also comprises a user login module which is in communication connection with the environmental parameter acquisition module, the remote data transmission module, the data processing module, the parameter adjustment module, the data storage module and the alarm module and is used for directly observing and calling the information of the environmental parameter acquisition module, the remote data transmission module, the data processing module, the parameter adjustment module, the data storage module and the alarm module.

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