CN110825145A - Automatic supervision system of cowshed is raised in meat duck cage - Google Patents

Abstract

The invention discloses an automatic monitoring system for a meat duck cage-culture shed, which comprises a shed body, wherein a fixed-point monitoring system, a mobile monitoring system and an adjusting and managing system are arranged in the shed body, a plurality of groups of three-layer duck cages are arranged in the shed body, and a plurality of monitoring nodes are arranged on the outer sides of the plurality of groups of three-layer duck cages. According to the invention, the three layers of duck cages are monitored by the observation vehicle body, no monitoring dead angle exists, the working strength of field constructors is reduced, the monitoring video data is remotely transmitted, the environmental parameter index collector collects node environmental information, collected signals, directional video data and mobile collected data are simultaneously sent to the terminal monitoring platform, the breeding condition of local environment is improved by the regulation management system, two monitoring modes of mobile monitoring and fixed point data monitoring are combined, the monitoring precision is greatly improved, sudden accidents can be timely and timely responded, the monitoring and remote management of the meat ducks are realized, the time and labor are saved, and the meat duck cage breeding quality and yield are greatly improved.

Description

Automatic supervision system of cowshed is raised in meat duck cage

Technical Field

The invention relates to the technical field of poultry breeding management, in particular to an automatic monitoring system for a meat duck cage-rearing shed.

Background

Aiming at the demand of poultry intensive production, the meat duck cage-rearing technology is being widely popularized, and the meat duck cage-rearing technology generally adopts a multilayer three-dimensional cage-rearing meat duck shed such as three-layer cage-rearing, so that the space of the duck shed can be fully utilized, the rearing density is increased, and the yield per unit area is improved.

The existing intelligent supervision breeding technology is simple, although the monitoring is installed in a shed, every cage-breeding small unit cannot be monitored, a monitoring blind area exists, the meat duck flock situation cannot be rapidly monitored even if a common breeding observation vehicle is used, in addition, the change of environmental parameters such as temperature, humidity, illumination, oxygen, carbon dioxide, ammonia, hydrogen sulfide and wind speed has very important influence on the healthy breeding of meat ducks, the space of the cage-breeding shed is relatively closed, the breeding amount is large, the control on the environmental parameters in the duck shed is relatively difficult, and the automatic monitoring management is not convenient.

Therefore, it is necessary to provide an automatic monitoring system for a meat duck cage shed to solve the above problems.

Disclosure of Invention

The invention aims to provide an automatic monitoring system for a meat duck cage-rearing shed, which monitors three layers of duck cages by an observation vehicle body without monitoring dead angles, displays monitoring pictures on a display screen in a split screen mode to facilitate observation, reduces the working strength of field constructors, remotely transmits monitoring video data, collects node environment information by an environment parameter index collector, simultaneously transmits collected signals, directional video data and mobile collected data to a terminal monitoring platform, improves the breeding condition of local environment by adjusting the management system, combines two monitoring modes of mobile monitoring and fixed point data monitoring, greatly improves the monitoring precision, can timely and respond to sudden accidents, monitors and remotely manages meat ducks, saves time and labor, greatly improves the meat duck cage-rearing quality and yield, and solves the defects in the technology.

In order to achieve the above purpose, the invention provides the following technical scheme: an automatic monitoring system for a cage shed for cage-culturing meat ducks comprises a shed body, wherein a fixed-point monitoring system, a mobile monitoring system and an adjusting and managing system are arranged in the shed body, a plurality of groups of three-layer duck cages are arranged in the shed body, a plurality of monitoring nodes are arranged outside the groups of three-layer duck cages, the fixed-point monitoring system and the adjusting and managing system are correspondingly arranged at the monitoring nodes, the mobile monitoring system is movably arranged in the shed body, a terminal monitoring platform is arranged at the connecting end of the adjusting and managing system, and the connecting end of the terminal monitoring platform is wirelessly connected with an administrator end through a network;

the fixed-point monitoring system comprises a fixed camera group and an environment monitoring assembly, wherein the fixed camera group is used for obtaining images of the duck shed near the nodes, and the environment monitoring assembly is used for obtaining local environment conditions of the duck shed near the nodes;

the mobile monitoring system comprises an observation vehicle body, wherein mobile camera groups are arranged on two sides of the observation vehicle body, a display screen is fixedly connected to the top of the observation vehicle body, a Digital Signal Processor (DSP) is arranged at the connecting end of the display screen, a wireless transmitter is arranged at the connecting end of the DSP and used for directionally transmitting video data signals, a first A/D converter is arranged at the input end of the DSP, a first D/A converter is arranged at the output end of the DSP, the mobile camera groups are electrically connected with the first A/D converter, and the DSP is electrically connected with the display screen;

the regulation management system comprises a wind control assembly, a temperature control assembly, a humidity control assembly and a light control assembly, wherein the wind control assembly is used for regulating the wind speed and the air flow flux near a monitoring node, the temperature control assembly and the humidity control assembly are respectively used for regulating the temperature and the humidity near the monitoring node, and the light control assembly is used for regulating the illumination intensity near the monitoring node;

the terminal monitoring platform comprises a central processing unit and a display, wherein a connecting end of the central processing unit is provided with a memory, the central processing unit is used for receiving a data signal transmitted in a directional mode, the display is used for displaying monitoring node environmental data and video data sensed by the fixed-point monitoring system and switching and displaying monitoring video data of the mobile monitoring system, and the memory is used for storing monitoring data values of the fixed-point monitoring system and the mobile monitoring system and adjusting and managing operation information of the system;

the input of central processing unit is equipped with the second AD converter, the output of central processing unit is equipped with the second DA converter, fixed camera group and environmental monitoring subassembly all with second AD converter electric connection, wind accuse subassembly, temperature control subassembly, wet accuse subassembly and light-operated component all with second DA converter electric connection, display and memory all with central processing unit electric connection.

Preferably, the mobile camera group comprises three cameras, and the three cameras are respectively matched with the three layers of duck cages in height.

Preferably, the environment monitoring component is set as an environment parameter index collector, and the environment parameter index collector consists of a temperature and humidity sensor, an illumination intensity sensor, a wind speed sensor, an oxygen content sensor, a carbon dioxide concentration sensor, an ammonia concentration sensor and a hydrogen sulfide concentration sensor.

Preferably, the connection circuit of the central processor comprises a temperature control chip, a humidity control chip, a wind speed control chip, an illumination intensity control chip, a carbon dioxide concentration control chip, an oxygen content control chip, an ammonia concentration control chip and a hydrogen sulfide concentration control chip, wherein the temperature control chip, the humidity control chip, the wind speed control chip, the illumination intensity control chip, the carbon dioxide concentration control chip, the oxygen content control chip, the ammonia concentration control chip and the hydrogen sulfide concentration control chip are all connected with the central processor in series.

Preferably, the wind-operated components includes ventilation pipe and fan, fan output and ventilation pipe fixed connection, ventilation pipe and fan are used for local environment to take a breath, the temperature control components includes warm braw stove and wet curtain, warm braw stove and wet curtain are used for local environment respectively and rise temperature and cool down, the wet-operated components includes humidifier and desiccator, and humidifier and desiccator are used for local environment humidification and drying respectively, the light-operated components includes electricity-saving lamp and shutter, electricity-saving lamp and shutter are used for adjusting the photic intensity of local environment.

Preferably, the temperature control chip is matched with the temperature control assembly, the humidity control chip is matched with the humidity control assembly, the wind speed control chip, the carbon dioxide concentration control chip, the oxygen content control chip, the ammonia concentration control chip and the hydrogen sulfide concentration control chip are all matched with the wind control assembly, and the illumination intensity control chip is matched with the light control assembly.

Preferably, the administrator terminal is set as a mobile phone client, and the mobile phone client performs two-way transmission with the terminal monitoring platform.

In the technical scheme, the invention provides the following technical effects and advantages:

1. the three-layer duck cages are monitored through the observation vehicle body, monitoring dead angles do not exist, monitoring pictures are displayed on a display screen in a split screen mode, observation is facilitated, the working strength of field constructors is reduced, monitoring video data is transmitted remotely, node environment information is collected through an environment parameter index collector, collected signals, directional video data and mobile collected data are simultaneously sent to a terminal supervision platform, the breeding condition of a local environment is improved through a regulation management system, two monitoring modes of mobile monitoring and fixed point data monitoring are combined, the monitoring accuracy is greatly improved, sudden accidents can be timely and timely coped with, monitoring and remote management of the meat ducks are achieved, time and labor are saved, and the meat duck cage breeding quality and yield are greatly improved;

2. through setting up administrator's end and terminal supervision platform communication signal both way transmission, the staff is long-range watching and handle the regulation operation at the cell-phone end, convenient adjust and improve local aquaculture environment, set up independent temperature control chip, humidity control chip, wind speed control chip, illumination intensity control chip, carbon dioxide concentration control chip, oxygen content control chip, ammonia concentration control chip and hydrogen sulfide concentration control chip, and multiple control chip all with central treater series connection, with the accurate wind accuse subassembly that starts, temperature control component, wet accuse subassembly and light-operated component, the realization is adjusted the accurate control of whole environment and local environment in the cowshed of raising meat duck in cages.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a schematic of the topology of the present invention;

FIG. 2 is an overall system block diagram of the present invention;

FIG. 3 is a schematic diagram of a mobile monitoring system according to the present invention;

FIG. 4 is a schematic diagram of the internal structure of the CPU of the present invention;

fig. 5 is a schematic structural diagram of the control system of the present invention.

Description of reference numerals:

the system comprises a shed body 1, a fixed-point monitoring system 2, a fixed camera group 21, an environment monitoring assembly 22, a mobile monitoring system 3, an observation vehicle body 31, a camera group 32, a display screen 33, a digital signal processor DSP 34, an adjustment management system 4, a wind control assembly 41, a temperature control assembly 42, a humidity control assembly 43, a light control assembly 44, a terminal supervision platform 5, a central processing unit 51, a display 52, a storage 53 and a manager end 6.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

The invention provides an automatic monitoring system for a meat duck cage culture shed as shown in figures 1-5, which comprises a shed body 1, wherein a fixed-point monitoring system 2, a mobile monitoring system 3 and an adjusting management system 4 are arranged in the shed body 1, a plurality of groups of three-layer duck cages are arranged in the shed body 1, a plurality of monitoring nodes are arranged outside the groups of three-layer duck cages, the fixed-point monitoring system 2 and the adjusting management system 4 are correspondingly arranged at the monitoring nodes, the mobile monitoring system 3 is movably arranged in the shed body 1, a terminal monitoring platform 5 is arranged at the connecting end of the adjusting management system 4, and the connecting end of the terminal monitoring platform 5 is wirelessly connected with a manager end 6 through a network;

the fixed-point monitoring system 2 comprises a fixed camera group 21 and an environment monitoring component 22, wherein the fixed camera group 21 is used for obtaining images of the duck shed near the nodes, and the environment monitoring component 22 is used for obtaining local environment conditions of the duck shed near the nodes;

the mobile monitoring system 3 comprises an observation vehicle body 31, wherein mobile camera groups 32 are arranged on two sides of the observation vehicle body 31, a display screen 33 is fixedly connected to the top of the observation vehicle body 31, a digital signal processor DSP 34 is arranged at a connecting end of the display screen 33, a wireless transmitter is arranged at a connecting end of the digital signal processor DSP 34 and used for directionally transmitting video data signals, a first A/D converter is arranged at an input end of the digital signal processor DSP 34, a first D/A converter is arranged at an output end of the digital signal processor DSP 34, the mobile camera groups 32 are electrically connected with the first A/D converter, and the digital signal processor DSP 34 is electrically connected with the display screen 33;

the adjusting and managing system 4 comprises a wind control assembly 41, a temperature control assembly 42, a humidity control assembly 43 and a light control assembly 44, wherein the wind control assembly 41 is used for adjusting the wind speed and the air flow flux near a monitoring node, the temperature control assembly 42 and the humidity control assembly 43 are respectively used for adjusting the temperature and the humidity near the monitoring node, the light control assembly 44 is used for adjusting the illumination intensity near the monitoring node, and the wind control assembly 41, the temperature control assembly 42, the humidity control assembly 43 and the light control assembly 44 are matched for use to automatically adjust the temperature, the humidity, the wind speed, the illumination intensity, the oxygen content, the carbon dioxide concentration, the ammonia concentration and the hydrogen sulfide concentration in the pigsty so as to realize the accurate control of the environment in the meat duck cage culture shed;

the terminal monitoring platform 5 comprises a central processing unit 51 and a display 52, a memory 53 is arranged at a connecting end of the central processing unit 51, the central processing unit 51 is used for receiving data signals transmitted in a directional manner, the display 52 is used for displaying environmental data and video data of monitoring nodes sensed by the fixed-point monitoring system 2 and switching and displaying the monitoring video data of the mobile monitoring system 3, and the memory 53 is used for storing monitoring data values of the fixed-point monitoring system 2 and the mobile monitoring system 3 and operating information of the regulation management system 4;

the input end of the central processing unit 51 is provided with a second A/D converter, the output end of the central processing unit 51 is provided with a second D/A converter, the fixed camera group 21 and the environment monitoring assembly 22 are electrically connected with the second A/D converter, the wind control assembly 41, the temperature control assembly 42, the humidity control assembly 43 and the light control assembly 44 are electrically connected with the second D/A converter, and the display 52 and the memory 53 are electrically connected with the central processing unit 51.

Further, in the above technical solution, the mobile camera group 32 includes three cameras, and the three cameras are respectively matched with the heights of the three layers of duck cages;

further, in the above technical solution, the environment monitoring component 22 is configured as an environment parameter index collector, and the environment parameter index collector is composed of a temperature and humidity sensor, an illumination intensity sensor, a wind speed sensor, an oxygen content sensor, a carbon dioxide concentration sensor, an ammonia concentration sensor, and a hydrogen sulfide concentration sensor;

further, in the above technical solution, the model of the temperature and humidity sensor is set as DHT22, the model of the illumination intensity sensor is set as JXBS-3001-GHFS, the model of the wind speed sensor is JXBS-3001-FS and the model of the carbon dioxide concentration sensor is MH-Z14, the model of the ammonia gas concentration sensor is set as FGD2-C-NH3, the model of the hydrogen sulfide concentration sensor is set as GLH200, the model of the oxygen content sensor is set to 7ID-O2/4ID-O2, the temperature and humidity sensor, the illumination intensity sensor, the wind speed sensor, the oxygen content sensor, the carbon dioxide concentration sensor, the ammonia gas concentration sensor and the hydrogen sulfide concentration sensor are all in the prior art, and the structural installation of the scheme can be completed by combining the type and the common knowledge by technicians in the field;

further, in the above technical solution, the wind control assembly 41 includes a ventilation pipe and a fan, an output end of the fan is fixedly connected to the ventilation pipe, the ventilation pipe and the fan are used for ventilation in the local environment, the temperature control assembly 42 includes a warm air furnace and a wet curtain, the warm air furnace and the wet curtain are respectively used for heating and cooling in the local environment, the wet control assembly 43 includes a humidifier and a dryer, the humidifier and the dryer are respectively used for humidification and drying in the local environment, the light control assembly 44 includes an energy saving lamp and a shutter, and the energy saving lamp and the shutter are used for adjusting the light intensity of the local environment;

the implementation mode is specifically as follows: meat ducks are intensively cultured in the shed body 1, the field condition in the shed body 1 is regularly patrolled through the observation vehicle body 31, the three cameras respectively monitor the three layers of duck cages without monitoring dead angles, monitoring pictures are displayed on the display screen 33 in a split screen mode, the observation is convenient, the working strength of field constructors is reduced, the monitoring video data are remotely transmitted, the environment parameter index collector collects the local temperature and humidity information, the illumination strength information, the wind speed information, the oxygen content information, the carbon dioxide concentration information, the ammonia concentration information and the hydrogen sulfide concentration information of a fixed node, collected signals, directional video data and mobile collected data are simultaneously transmitted to the terminal monitoring platform 5, the collected signals, the directional video data and the mobile collected data are converted into data signals and video data by the second A/D converter and then are displayed on the display 52, and when the local environment needs to be adjusted, the wind control assemblies 41 are respectively controlled by the central processing unit 51, Temperature control component 42, wet accuse subassembly 43 and light-operated component 44, with the breed condition of improving local environment, and record parameter data and operation, be convenient for breed the management, in addition, through the environmental parameter data, at the healthy breed environmental parameter contrast of each growth stage of data center storage meat duck, after the autofilter filters, send out the instruction to the adjusting device of environmental parameter data position department that exceeds standard, can realize intelligent automated management, combine two kinds of monitoring methods of mobile monitoring and fixed point data monitoring, improve the precision of monitoring greatly, can in time and deal with the accident, monitoring and remote management to meat duck, time saving and labor saving, improve meat duck cage culture quality and output greatly.

Further, in the above technical solution, the connection circuit of the central processor includes a temperature control chip, a humidity control chip, a wind speed control chip, an illumination intensity control chip, a carbon dioxide concentration control chip, an oxygen content control chip, an ammonia concentration control chip and a hydrogen sulfide concentration control chip, and the temperature control chip, the humidity control chip, the wind speed control chip, the illumination intensity control chip, the carbon dioxide concentration control chip, the oxygen content control chip, the ammonia concentration control chip and the hydrogen sulfide concentration control chip are all connected in series with the central processor;

further, in the above technical solution, the temperature control chip is matched with the temperature control component 42, the humidity control chip is matched with the humidity control component 43, the wind speed control chip, the carbon dioxide concentration control chip, the oxygen content control chip, the ammonia concentration control chip and the hydrogen sulfide concentration control chip are all matched with the wind control component 41, and the illumination intensity control chip is matched with the light control component 44;

further, in the above technical solution, the administrator terminal 6 is set as a mobile phone client, and the mobile phone client transmits communication signals with the terminal monitoring platform 5 in two directions;

the implementation mode is specifically as follows: through setting up administrator end 6, and administrator end 6 and 5 communication signal bidirectional transmission at terminal supervision platform, the staff can be at the long-range regulation operation of watching of cell-phone end and handling, convenient adjust and improve local aquaculture environment, set up independent temperature control chip, humidity control chip, wind speed control chip, illumination intensity control chip, carbon dioxide concentration control chip, oxygen content control chip, ammonia concentration control chip and hydrogen sulfide concentration control chip, and multiple control chip all with central treater series connection, with accurate start-up wind accuse subassembly 41, temperature control component 42, humidity control component 43 and light-operated component 44, realize raising the accurate control regulation of whole environment and local environment in the shed to meat duck cage.

The working principle of the invention is as follows:

referring to the attached drawings 1-5 of the specification, the field condition inside the shed body 1 is observed through an observation vehicle body 31, three layers of duck cages are monitored, no monitoring dead angle exists, monitoring pictures are displayed on a display screen 33 through a split screen mode, the observation is convenient, the working strength of field constructors is reduced, monitoring video data are transmitted remotely, an environmental parameter index collector collects local temperature and humidity information, illumination intensity information, wind speed information, oxygen content information, carbon dioxide concentration information, ammonia concentration information and hydrogen sulfide concentration information of a fixed node, collected signals, directional video data and mobile collected data are simultaneously transmitted to a terminal monitoring platform 5, the collected signals, the directional video data and the mobile collected data are converted into data signals and video data by a second A/D converter and then are displayed on a display 52, and when the local environment needs to be adjusted, a central processing unit 51 respectively controls a wind control assembly 41, a wind control assembly 41, A temperature control component 42, a humidity control component 43 and a light control component 44, and records parameter data and operation;

referring to the attached drawings 1-5 of the specification, through setting up the communication signal bidirectional transmission of the administrator terminal 6 and the terminal supervision platform 5, the staff remotely watches and handles the regulation operation at the cell-phone end, conveniently adjust and improve the local culture environment, set up independent temperature control chip, humidity control chip, wind speed control chip, illumination intensity control chip, carbon dioxide concentration control chip, oxygen content control chip, ammonia concentration control chip and hydrogen sulfide concentration control chip, and multiple control chip all with central processor series connection, with accurate start-up wind accuse subassembly 41, temperature control subassembly 42, humidity control subassembly 43 and light-operated component 44, whole environment and local environment regulation in the shed is supported to meat duck cage.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (7)

1. The utility model provides a meat duck cage rearing shed automatic supervisory systems, includes shed body (1), its characterized in that: the shed comprises a shed body (1) and is characterized in that a fixed-point monitoring system (2), a mobile monitoring system (3) and an adjusting management system (4) are arranged in the shed body (1), a plurality of groups of three-layer duck cages are arranged in the shed body (1), a plurality of monitoring nodes are arranged on the outer sides of the groups of three-layer duck cages, the fixed-point monitoring system (2) and the adjusting management system (4) are correspondingly arranged at the monitoring nodes, the mobile monitoring system (3) is movably arranged in the shed body (1), a terminal monitoring platform (5) is arranged at the connecting end of the adjusting management system (4), and the connecting end of the terminal monitoring platform (5) is wirelessly connected with an administrator terminal (6) through a network;

the fixed-point monitoring system (2) comprises a fixed camera group (21) and an environment monitoring assembly (22), wherein the fixed camera group (21) is used for obtaining images of the duck shed near the nodes, and the environment monitoring assembly (22) is used for obtaining local environment conditions of the duck shed near the nodes;

the mobile monitoring system (3) comprises an observation vehicle body (31), wherein mobile camera groups (32) are arranged on two sides of the observation vehicle body (31), a display screen (33) is fixedly connected to the top of the observation vehicle body (31), a Digital Signal Processor (DSP) (34) is arranged at the connecting end of the display screen (33), a wireless transmitter is arranged at the connecting end of the Digital Signal Processor (DSP) (34), the wireless transmitter is used for directionally transmitting video data signals, a first A/D converter is arranged at the input end of the Digital Signal Processor (DSP) (34), a first D/A converter is arranged at the output end of the Digital Signal Processor (DSP) (34), the mobile camera groups (32) are electrically connected with the first A/D converter, and the Digital Signal Processor (DSP) (34) is electrically connected with the display screen (33);

the regulation management system (4) is composed of a wind control assembly (41), a temperature control assembly (42), a humidity control assembly (43) and a light control assembly (44), the wind control assembly (41) is used for regulating wind speed and airflow near a monitoring node, the temperature control assembly (42) and the humidity control assembly (43) are respectively used for regulating temperature and humidity near the monitoring node, and the light control assembly (44) is used for regulating illumination intensity near the monitoring node;

the terminal supervision platform (5) comprises a central processing unit (51) and a display (52), a memory (53) is arranged at the connecting end of the central processing unit (51), the central processing unit (51) is used for receiving data signals transmitted in a directional mode, the display (52) is used for displaying monitoring node environment data and video data sensed by the fixed-point monitoring system (2) and switching and displaying monitoring video data of the mobile monitoring system (3), and the memory (53) is used for storing monitoring data values of the fixed-point monitoring system (2) and the mobile monitoring system (3) and operation information of the regulation management system (4);

the input of central processing unit (51) is equipped with the second AD converter, the output of central processing unit (51) is equipped with the second DA converter, fixed camera group (21) and environmental monitoring subassembly (22) all with second AD converter electric connection, wind accuse subassembly (41), temperature control component (42), wet accuse subassembly (43) and light-operated component (44) all with second DA converter electric connection, display (52) and memory (53) all with central processing unit (51) electric connection.

2. The automatic monitoring system for the meat duck cage shed according to claim 1, wherein: the mobile camera group (32) comprises three cameras which are respectively matched with the heights of the three layers of duck cages.

3. The automatic monitoring system for the meat duck cage shed according to claim 1, wherein: the environment monitoring assembly (22) is arranged as an environment parameter index collector, and the environment parameter index collector consists of a temperature and humidity sensor, an illumination intensity sensor, a wind speed sensor, an oxygen content sensor, a carbon dioxide concentration sensor, an ammonia concentration sensor and a hydrogen sulfide concentration sensor.

4. The automatic monitoring system for the meat duck cage shed according to claim 1, wherein: the central processor is characterized in that a connecting circuit of the central processor comprises a temperature control chip, a humidity control chip, a wind speed control chip, an illumination intensity control chip, a carbon dioxide concentration control chip, an oxygen content control chip, an ammonia concentration control chip and a hydrogen sulfide concentration control chip, wherein the temperature control chip, the humidity control chip, the wind speed control chip, the illumination intensity control chip, the carbon dioxide concentration control chip, the oxygen content control chip, the ammonia concentration control chip and the hydrogen sulfide concentration control chip are all connected with the central processor in series.

5. The automatic supervision system for the meat duck cage-rearing shed according to claim 4, characterized in that: wind accuse subassembly (41) includes ventilation pipe and fan, fan output and ventilation pipe fixed connection, ventilation pipe and fan are used for local environment to take a breath, temperature control unit (42) are including warm braw stove and wet curtain, warm braw stove and wet curtain are used for local environment respectively and rise temperature and cool down, wet accuse subassembly (43) are including humidifier and desiccator, and humidifier and desiccator are used for local environment humidification and drying respectively, light control unit (44) are including electricity-saving lamp and shutter, electricity-saving lamp and shutter are used for adjusting local environment's photic intensity.

6. The automatic supervision system for the meat duck cage-rearing shed according to claim 4, characterized in that: the temperature control chip and temperature control component (42) phase-match, humidity control chip and humidity control component (43) phase-match, wind speed control chip, carbon dioxide concentration control chip, oxygen content control chip, ammonia concentration control chip and hydrogen sulfide concentration control chip all with wind control component (41) phase-match, illumination intensity control chip and light-operated component (44) phase-match.

7. The automatic monitoring system for the meat duck cage shed according to claim 1, wherein: the administrator terminal (6) is set as a mobile phone client, and the mobile phone client transmits communication signals with the terminal supervision platform (5) in a two-way mode.

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