CN205161497U - Standardized intelligent monitoring system that breeds of rabbit based on thing networking - Google Patents

Abstract

The utility model provides a standardized intelligent monitoring system that breeds of rabbit based on thing networking, includes a plurality of wireless sensor network nodes, zigBee routing node, zigBee ethernet gateway, server, customer end and video monitor system. Wherein the wireless sensor network node passes through zigBee routing node and connects zigBee ethernet gateway, and zigBee ethernet gateway access service ware connection client is with transmitting data, wherein video monitor system includes camera, switch, digital video recorder, router and display, the camera passes through the switch and connects the data of digital video recorder in order to receive rabbit house video information to show data through the display. The wireless sensor network node includes foodstuff conveying control, feed control, surplus material monitoring, drinking water control, the automatic control of suckleing, ventilation control, illumiinance control, environmental monitoring and automatic clear excrement monitoring node. Can improve rabbit survival rate, the rabbit hair and rabbit meat matter and output.

Description

Based on the rabbit standardization cultivation intelligent monitor system of Internet of Things

Technical field

The present invention relates to a kind of rabbit standardization based on Internet of Things cultivation intelligent monitor system, belong to rabbit intelligence cultural technique field.

Background technology

Along with the fast development of China's economy, aquaculture scale expands gradually.2013, No.1 Central File continued to pay close attention to agriculture, rural areas and farmers problem, serves facilitation to the development of peasant's aquaculture.In recent years, extensive raising, in rabbit foster is planted, was changed into gradually by fragmentary casual household in Jilin Province.Meat rabbit aquaculture has small investment, risk is low, the cycle is short, high efficiency and the many feature of joint grain, has become the important component part of livestock breeding.Rabbit meat has better nutritivity and is worth, and is described as " element in meat or fish ".The lean meat of rabbit meat accounts for more than 95%, and every hectogram is containing good protein 21.6 grams, and than pork, mutton, chicken and beef are all high.Vitamin content in rabbit meat is higher, especially more with nicotinic acid, with dry basis, every hectogram containing 66 milligrams.Rabbit meat mineral content is also many, and calcium content enriches, because of but the nutraceutical of pregnant woman, children.The every hectogram of cholesterol level of rabbit meat only 60 ~ 80 milligrams, not only low than general meat, also lower than fish.Rabbit meat is also containing abundant lecithin.Lecithin has suppression platelet aggregation and prevents thrombotic effect, protects vascular wall in addition, prevents arteriosclerotic effect, the choline in lecithin, can improve man memory power, prevent brain function decline.Rabbit has light softness and warming advantage attractive in appearance, and be the good raw material making fur products, its product consumption obviously increases, and price rises steadily, and market demand grows with each passing day.

The existing domestic mechanization rabbit feeding facility often occurred, design very ingenious, but lack informationalized management and Based Intelligent Control, function is perfect not, and automaticity is not high.Rabbit cultural technique as existing in (one) just detects the aerial temperature and humidity of rabbit growth by application multiple sensors, gas concentration lwevel, the environmental parameters such as illuminance, corresponding rabbit growing environment is not also had automatically to detect regulator control system at present, the above-mentioned environmental parameter that native system application multiple sensors will collect, by wireless sense network, information is sent to server admin platform, according to the demand of rabbit growth to environment, system is taked to ventilate, light filling, the measures such as heating, the temperature of automatic adjusting ambient, humidity, the parameters such as illumination, arrange camera simultaneously, application smart mobile phone and the situation of camera to rabbit home are checked at any time, ensure rabbit healthy growth under the growing environment of optimum, reduce the generation of disease.

A lot of local mode still adopting artificial feeding, causes the waste of a large amount of manpower and materials at present.According to data, also do not have now a set of maturation can realize integrate automatic water feeding, feeding, breast-feed, be incubated, ventilate, except just, the automatic control system of the function such as epidemic prevention.Because the rabbit quantity in warren is a lot, can not take appropriate measures timely once certain rabbit is sick, be easy to the state of an illness to spread, serve unnecessary loss to warren band.Native system is by connatae for rabbit this system of relevant information typing, and according to the management information of each rabbit, system makes comprehensive analysis and judgement, provides corresponding decision-making in stage.And according to the different stages take different management to prevent epidemic, breed, the measure such as to feed, thus substantially increase the quality and yield of the survival rate of rabbit, the rabbit hair and rabbit meat.

Summary of the invention

Technical problem to be solved by this invention is to provide and a kind ofly integrates automatic water feeding, feeding, breast-feeds, is incubated, ventilates, except the system of the functions such as ight soil, Internet of Things skill is applied to rabbit raise and in management process, realize rabbit and raise scientific, information-based, intelligent.

The technical scheme that the present invention solves the problems of the technologies described above is as follows:

Based on a rabbit standardization cultivation intelligent monitor system for Internet of Things, comprise multiple radio sensing network node, ZigBee routing node, ZigBee ethernet gateway, server, client and video monitoring system.Wherein said radio sensing network node connects ZigBee ethernet gateway by ZigBee routing node, and ZigBee ethernet gateway access server connects client to transmit data; Wherein said video monitoring system comprises video camera, switch, DVR, router and display, and described video camera connects DVR to receive the data of rabbit home video information by switch, and shows data by display.

Preferred as technique scheme, described radio sensing network node comprises foodstuff and transmits monitor node, feed monitor node, surplus material monitoring node, drinking-water monitor node, automatic milk-feeding control monitor node, Ventilation Control node, illuminance monitor node, environment monitoring node and automatic manure-cleaning monitor node.

Preferred as technique scheme, described drinking-water monitor node comprises flowmeter, data transmission unit, debugging unit, wireless micro-control unit, A/D modular converter, electric-motor drive unit, acousto-optic indicating member, level sensor, water pump performance element, PMU; Flowmeter, data transmission unit, debugging unit are connected with wireless micro-control unit with acousto-optic indicating member; Level sensor is connected with wireless micro-control unit by A/D modular converter; Water pump performance element is connected with wireless micro-control unit by electric-motor drive unit; PMU is storage battery power supply power supply, for flowmeter, data transmission unit, debugging unit, wireless micro-control unit, A/D modular converter, electric-motor drive unit, acousto-optic indicating member, level sensor, water pump performance element are powered.

Preferred as technique scheme, described automatic milk-feeding monitor node comprises timing unit, data transmission unit, debugging unit, infrared detection unit, wireless micro-control unit, alarm unit, electric-motor drive unit, linkage door performance element, acousto-optic indicating member and PMU; Timing unit, data transmission unit, debugging unit, infrared detection unit, alarm unit, acousto-optic indicating member are connected with wireless micro-control unit respectively; Linkage door performance element is connected with wireless micro-control unit by electric-motor drive unit; PMU is storage battery power supply power supply, for timing unit, data transmission unit, debugging unit, infrared detection unit, wireless micro-control unit, alarm unit, electric-motor drive unit, linkage door performance element, acousto-optic indicating member are powered.

Preferred as technique scheme, described illuminance monitor node comprises timing unit, data transmission unit, debugging unit, wireless micro-control unit, illuminance collecting unit day regulating and controlling illumination unit and PMU; Timing unit, data transmission unit, debugging unit, illuminance collecting unit, day regulating and controlling illumination unit be connected with wireless micro-control unit respectively; PMU is storage battery power supply power supply, for timing unit, data transmission unit, debugging unit, wireless micro-control unit, illuminance collecting unit, day regulating and controlling illumination unit power.

Preferred as technique scheme, described environmental monitoring node comprises sensor unit, Date Conversion Unit, data processing unit and PMU; Sensor unit is connected with data processing unit by Date Conversion Unit; Sensor unit comprises Temperature Humidity Sensor, ammonia concentration sensor and CO ₂concentration sensor; Date Conversion Unit is A/D converting unit; Data processing unit is wireless micro-control unit; PMU is storage battery power supply power supply, for sensor unit, Date Conversion Unit, data processing unit are powered.

Preferred as technique scheme, described automatic manure-cleaning monitor node comprises timing unit, data transmission unit, debugging unit, wireless micro-control unit, signal conditioning circuit, driving performance element, acousto-optic indicating member, gas sensor and PMU; Timing unit, data transmission unit, debugging unit, driving performance element, acousto-optic indicating member are connected with wireless micro-control unit; Gas sensor is connected with wireless micro-control unit by signal conditioning circuit; PMU is storage battery power supply power supply, for timing unit, data transmission unit, debugging unit, wireless micro-control unit, signal conditioning circuit, driving performance element, acousto-optic indicating member, gas sensor are powered.

Preferred as technique scheme, described gas sensor adopts the ammonia concentration of ME3-NH3 fixed electric potential electroanalysis type ammonia gas sensor Real-time Collection rabbit home; Signal conditioning circuit comprises the operating circuit of potentiostatic circuit and sensor.

Preferred as technique scheme, described whole wireless microprocessing unit is technical grade JN5168 less radio-frequency microcontroller.

The invention has the beneficial effects as follows: technology of Internet of things is applied to rabbit and raises and in management process, realize rabbit and raise scientific, information-based, intelligent.Establish a set of feed system and Automated fine of rabbit breeding environment digitlization regulator control system, disease intelligent early-warning and diagnostic system, digitized fine that integrate to breast-feed the rabbit cultivation intelligent monitor system of system.Deficiency for existing rabbit cultivating system is improved, make cultivation equipment have more intelligent, greatly saved cost, simultaneously for the specific demand of rabbit growth to environment, raising, prevention from suffering from the diseases, realize the intelligent control to rabbit home equipment, substantially increase the survival rate of rabbit, improve the quality and yield of rabbit meat, the rabbit hair simultaneously, contribute to rabbit breeding enterprise and create more, larger economic benefit.

Accompanying drawing explanation

Fig. 1 is the rabbit standardization cultivation intelligent monitor system topological diagram based on Internet of Things;

Fig. 2 is drinking-water monitor node of the present invention;

Fig. 3 is automatic milk-feeding monitor node of the present invention;

Fig. 4 is illuminance monitor node of the present invention;

Fig. 5 is environmental monitoring node of the present invention;

Fig. 6 is automatic manure-cleaning monitor node of the present invention.

In accompanying drawing, the list of parts of each label representative is as follows:

1, flowmeter, 2, data transmission unit, 3, debugging unit, 4 wireless micro-control units, 5, A/D modular converter, 6, electric-motor drive unit, 7, acousto-optic indicating member, 8, level sensor, 9, water pump performance element, 10, PMU, 11, timing unit, 12, data transmission unit, 13, debugging unit, 14, infrared detection unit, 15, wireless micro-control unit, 16, alarm unit, 17, electric-motor drive unit, 18, linkage door performance element, 19, acousto-optic indicating member, 20, PMU, 21, timing unit, 22, data transmission unit, 23, debugging unit, 24, wireless micro-control unit, 25, illuminance collecting unit, 26, day regulating and controlling illumination unit, 27, PMU, 28, sensor unit, 29, Temperature Humidity Sensor, 30, ammonia concentration sensor, 31, CO ₂concentration sensor, 32, Date Conversion Unit, 33, A/D converting unit, 34, data processing unit, 35, wireless micro-control unit, 36, PMU, 37, timing unit, 38, data transmission unit, 39, debugging unit, 40, wireless micro-control unit, 41, signal conditioning circuit, 42, drive performance element, 43, acousto-optic indicating member, 44, gas sensor, 45, PMU.

Embodiment

Be described principle of the present invention and feature below in conjunction with accompanying drawing, example, only for explaining the present invention, is not intended to limit scope of the present invention.

As shown in Figure 1, The embodiment provides a kind of rabbit standardization based on Internet of Things cultivation intelligent monitor system, comprise multiple radio sensing network node, ZigBee routing node, ZigBee ethernet gateway, server, client and video monitoring system.Wherein said radio sensing network node connects ZigBee ethernet gateway by ZigBee routing node, and ZigBee ethernet gateway access server connects client to transmit data; Wherein said video monitoring system comprises video camera, switch, DVR, router and display, and described video camera connects DVR to receive the data of rabbit home video information by switch, and shows data by display.

Described radio sensing network node comprises foodstuff and transmits monitor node, feed monitor node, surplus material monitoring node, drinking-water monitor node, automatic milk-feeding control monitor node, Ventilation Control node, illuminance monitor node, environment monitoring node and automatic manure-cleaning monitor node.

Fig. 2 is drinking-water monitor node structure chart of the present invention, in this example, described drinking-water monitor node comprises flowmeter 1, data transmission unit 2, debugging unit 3, wireless micro-control unit 4, A/D modular converter 5, electric-motor drive unit 6, acousto-optic indicating member 7, level sensor 8, water pump performance element 9, PMU 10; Flowmeter 1, data transmission unit 2, debugging unit 3 are connected with wireless micro-control unit 4 with acousto-optic indicating member 7; Level sensor 8 is connected with wireless micro-control unit 4 by A/D modular converter 5; Water pump performance element 9 is connected with wireless micro-control unit 4 by electric-motor drive unit 6; PMU 10 is storage battery power supply power supply, for flowmeter 1, data transmission unit 2, debugging unit 3, wireless micro-control unit 4, A/D modular converter 5, electric-motor drive unit 6, acousto-optic indicating member 7, level sensor 8, water pump performance element 9 are powered, the civil power of AC220V is converted to DC24V, DC12V, DC5V, DC3.3V power supply; DC24V is electric-motor drive unit 6, level sensor 8, water pump performance element 9 are powered, DC12V is that acousto-optic indicating member 7 is powered, DC5V is flowmeter 1, A/D modular converter 5 is powered, and DC3.3V is that wireless microprocessing unit 4, data transmission unit 2 and debugging unit 3 are powered.

Data transmission unit 2 enclosed mass 6DB2.4GHz antennal interface, RS232 communication interface, USB2.0 communication interface; 2.4GHz antennal interface intercoms with other radio nodes in radio sensing network mutually for monitor node of drinking water, and RS232 communication interface, USB2.0 communication interface are used for node and the communication of host computer immediate data or on-line debugging.

Debugging unit 3 enclosed mass reset circuit, LED indicating circuit, RS232 AccessPort circuit.Reset circuit is for the running status of the drinking-water monitor node that resets; LED indicating circuit comprises the light emitting diode of red, green, yellow three different colours, green light is power supply indicator, amber light bright expression node startup optimization is normal, red colored lamp instructs node networking state, when red represents that this node successfully adds radio sensing network, can normally to host computer transmitting data information.

Wireless microprocessing unit 4 adopts the JN5168-001-M00 module of the super low-power consumption of commercial scale strip printed antenna, its acp chip is a kind of high-power ZigBee chip, namely JN5168, JN5168 minimum system comprises reset circuit, power supply circuits and DLL circuit.

Fig. 3 is automatic milk-feeding monitor node structure chart of the present invention, in this example, described automatic milk-feeding monitor node comprises timing unit 11, data transmission unit 12, debugging unit 13, infrared detection unit 14, wireless micro-control unit 15, alarm unit 16, electric-motor drive unit 17, linkage door performance element 18, acousto-optic indicating member 19 and PMU 20; Timing unit 11, data transmission unit 12, debugging unit 13, infrared detection unit 14, alarm unit 16, acousto-optic indicating member 19 are connected with wireless micro-control unit 15 respectively; Linkage door performance element 18 is connected with wireless micro-control unit 15 by electric-motor drive unit 17; PMU 20 is storage battery power supply power supply, for timing unit 11, data transmission unit 12, debugging unit 13, infrared detection unit 14, wireless micro-control unit 15, alarm unit 16, electric-motor drive unit 17, linkage door performance element 18, acousto-optic indicating member 19 are powered, the civil power of AC220V is converted to DC24V, DC12V, DC5V, DC3.3V power supply; DC24V is electric-motor drive unit 17, linkage door performance element 18 is powered, DC12V is alarm unit 16, acousto-optic indicating member 19 is powered, DC5V is timing unit 11, infrared detection unit 14 is powered, and DC3.3V is that wireless microprocessing unit 15, data transmission unit 12 and debugging unit 13 are powered.

Infrared detection unit 14 is single beam infrared emission infrared rays ABO-20 correlative detector probe .

Data transmission unit 12 enclosed mass 6DB2.4GHz antennal interface, RS232 communication interface, USB2.0 communication interface; 2.4GHz antennal interface is used for automatic milk-feeding monitor node and intercoms mutually with other radio nodes in radio sensing network, and RS232 communication interface, USB2.0 communication interface are for node and the communication of host computer immediate data or on-line debugging.

Debugging unit 13 enclosed mass reset circuit, LED indicating circuit, RS232 AccessPort circuit.Reset circuit is for the running status of the automatic milk-feeding monitor node that resets; LED indicating circuit comprises the light emitting diode of red, green, yellow three different colours, green light is power supply indicator, amber light bright expression node startup optimization is normal, red colored lamp instructs node networking state, when red represents that this node successfully adds radio sensing network, can normally to host computer transmitting data information.

Wireless microprocessing unit 15 adopts the JN5168-001-M00 module of the super low-power consumption of commercial scale strip printed antenna, its acp chip is a kind of high-power ZigBee chip, namely JN5168, JN5168 minimum system comprises reset circuit, power supply circuits and DLL circuit.

Fig. 4 is illuminance monitor node structure chart of the present invention, in this example, described illuminance monitor node comprise timing unit 21, data transmission unit 22, debugging unit 23, wireless micro-control unit 24, illuminance collecting unit 25, day regulating and controlling illumination unit 26 and PMU 27; Timing unit 21, data transmission unit 22, debugging unit 23, illuminance collecting unit 25, day regulating and controlling illumination unit 26 to be connected with wireless micro-control unit 24 respectively; PMU 27 is storage battery power supply power supply, for timing unit 21, data transmission unit 22, debugging unit 23, wireless micro-control unit 24, illuminance collecting unit 25, day regulating and controlling illumination unit 26 to power, the civil power of AC220V is converted to DC12V, DC5V, DC3.3V power supply; DC12V, DC5V are timing unit 21, day regulating and controlling illumination unit 26 to power, DC3.3V is that wireless microprocessing unit 24, data transmission unit 22 and debugging unit 23 are powered.

Illuminance collecting unit 25 utilizes BH1750FVI digital light according to intensity of illumination in intensity sensor Real-time Collection rabbit home house, is connected with the DIO mouth of wireless microcontroller JN5168 by IIC serial communication interface.

Day regulating and controlling illumination unit 26 comprise relay control module, current regulation module, steer mode commutation circuit and day illuminator; Relay control module, for isolating day regulating and controlling illumination unit and wireless microprocessing unit and illuminance collecting unit, controls lighting and closedown of day illuminator simultaneously; Current regulation module controls the operating current of day illuminator, thus the brightness of regulation and control day illuminator; Steer mode commutation circuit is used for the switching of auto-control pattern and manual regulation and control model; Day, illuminator was used for rabbit home light filling, and the extended day is according to duration.

Data transmission unit 22 enclosed mass 6DB2.4GHz antennal interface, RS232 communication interface, USB2.0 communication interface; 2.4GHz antennal interface is used for illuminance monitor node and intercoms mutually with other radio nodes in radio sensing network, and RS232 communication interface, USB2.0 communication interface are for node and the communication of host computer immediate data or on-line debugging.

Debugging unit 23 enclosed mass reset circuit, LED indicating circuit, RS232 AccessPort circuit.Reset circuit is for the running status of the illuminance monitor node that resets; LED indicating circuit comprises the light emitting diode of red, green, yellow three different colours, green light is power supply indicator, amber light bright expression node startup optimization is normal, red colored lamp instructs node networking state, when red represents that this node successfully adds radio sensing network, can normally to host computer transmitting data information.

Wireless microprocessing unit 24 adopts the JN5168-001-M00 module of the super low-power consumption of commercial scale strip printed antenna, its acp chip is a kind of high-power ZigBee chip, namely JN5168, JN5168 minimum system comprises reset circuit, power supply circuits and DLL circuit.

Fig. 5 is environmental monitoring node structure figure of the present invention, and in this example, described environmental monitoring node comprises sensor unit 28, Date Conversion Unit 32, data processing unit 34 and PMU 36; Sensor unit 28 is connected with data processing unit 34 by Date Conversion Unit 32; Sensor unit 28 comprises Temperature Humidity Sensor 29, ammonia concentration sensor 30 and CO2 concentration sensor 31; Date Conversion Unit 32 is A/D converting unit 33; Data processing unit 34 is wireless micro-control unit 35; PMU 36 is storage battery power supply power supply, for sensor unit 28, Date Conversion Unit 32, data processing unit 34 are powered.The civil power of AC220V is converted to DC6V, DC5V, DC3.3V, DC3V and DC-3V power supply; DC6V, DC3.3V, DC3V and DC-3V are that sensor unit 28 is powered, and DC5V is that Date Conversion Unit 32 is powered, and DC3.3V is that wireless micro-control unit 35 is powered.

Wireless micro-control unit 35 adopts the JN5168-001-M00 module of the super low-power consumption of commercial scale strip printed antenna, its acp chip is a kind of high-power ZigBee chip, namely JN5168, JN5168 minimum system comprises reset circuit, power supply circuits and DLL circuit.

Fig. 6 is automatic manure-cleaning monitor node structure chart of the present invention, in this example, described automatic manure-cleaning monitor node comprises timing unit 37, data transmission unit 38, debugging unit 39, wireless micro-control unit 40, signal conditioning circuit 41, drives performance element 42, acousto-optic indicating member 43, gas sensor 44 and PMU 45; Timing unit 37, data transmission unit 38, debugging unit 39, driving performance element 42, acousto-optic indicating member 43 are connected with wireless micro-control unit 40; Gas sensor 44 is connected with wireless micro-control unit 40 by signal conditioning circuit 41; PMU 45 is storage battery power supply power supply, for timing unit 37, data transmission unit 38, debugging unit 39, wireless micro-control unit 40, signal conditioning circuit 41, drive performance element 42, acousto-optic indicating member 43, gas sensor 44 to power, the civil power of AC220V is converted to DC24V, DC12V, DC5V, DC3.3V, DC3V and DC-3V power supply; DC24V powers for driving performance element 42, DC12V is that acousto-optic indicating member 43 is powered, DC5V is that timing unit 37 is powered, DC3V and DC-3V is signal conditioning circuit 41, gas sensor 44 is powered, and DC3.3V is that wireless microprocessing unit 40, data transmission unit 38 and debugging unit 39 are powered.

Described gas sensor 44 adopts the ammonia concentration of ME3-NH3 fixed electric potential electroanalysis type ammonia gas sensor Real-time Collection rabbit home; Signal conditioning circuit 41 comprises the operating circuit of potentiostatic circuit and sensor.

Data transmission unit 38 enclosed mass 6DB2.4GHz antennal interface, RS232 communication interface, USB2.0 communication interface; 2.4GHz antennal interface is used for automatic manure-cleaning monitor node and intercoms mutually with other radio nodes in radio sensing network, and RS232 communication interface, USB2.0 communication interface are for node and the communication of host computer immediate data or on-line debugging.

Debugging unit 39 enclosed mass reset circuit, LED indicating circuit, RS232 AccessPort circuit.Reset circuit is for the running status of the automatic manure-cleaning monitor node that resets; LED indicating circuit comprises the light emitting diode of red, green, yellow three different colours, green light is power supply indicator, amber light bright expression node startup optimization is normal, red colored lamp instructs node networking state, when red represents that this node successfully adds radio sensing network, can normally to host computer transmitting data information.

Wireless microprocessing unit 40 adopts the JN5168-001-M00 module of the super low-power consumption of commercial scale strip printed antenna, its acp chip is a kind of high-power ZigBee chip, namely JN5168, JN5168 minimum system comprises reset circuit, power supply circuits and DLL circuit.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (7)

1. the cultivation of the rabbit standardization based on an Internet of Things intelligent monitor system, comprise multiple radio sensing network node, ZigBee routing node, ZigBee ethernet gateway, server, client and video monitoring system, wherein said radio sensing network node connects ZigBee ethernet gateway by ZigBee routing node, and ZigBee ethernet gateway access server connects client to transmit data; Wherein said video monitoring system comprises video camera, switch, DVR, router and display, and described video camera connects DVR to receive the data of rabbit home video information by switch, and shows data by display;

Described radio sensing network node comprises foodstuff and transmits monitor node, feed monitor node, surplus material monitoring node, drinking-water monitor node, automatic milk-feeding control monitor node, Ventilation Control node, illuminance monitor node, environment monitoring node and automatic manure-cleaning monitor node;

Described drinking-water monitor node comprises flowmeter (1), data transmission unit (2), debugging unit (3), wireless micro-control unit (4), A/D modular converter (5), electric-motor drive unit (6), acousto-optic indicating member (7), level sensor (8), water pump performance element (9), PMU (10); Flowmeter (1), data transmission unit (2), debugging unit (3) are connected with wireless micro-control unit (4) with acousto-optic indicating member (7); Level sensor (8) is connected with wireless micro-control unit (4) by A/D modular converter (5); Water pump performance element (9) is connected with wireless micro-control unit (4) by electric-motor drive unit (6); PMU (10) is storage battery power supply power supply, is flowmeter (1), data transmission unit (2), debugging unit (3), wireless micro-control unit (4), A/D modular converter (5), electric-motor drive unit (6), acousto-optic indicating member (7), level sensor (8), water pump performance element (9) power supply.

2. a kind of cultivation of the rabbit standardization based on Internet of Things intelligent monitor system according to claim 1, is characterized in that: described automatic milk-feeding monitor node comprises timing unit (11), data transmission unit (12), debugging unit (13), infrared detection unit (14), wireless micro-control unit (15), alarm unit (16), electric-motor drive unit (17), linkage door performance element (18), acousto-optic indicating member (19) and PMU (20); Timing unit (11), data transmission unit (12), debugging unit (13), infrared detection unit (14), alarm unit (16), acousto-optic indicating member (19) are connected with wireless micro-control unit (15) respectively; Linkage door performance element (18) is connected with wireless micro-control unit (15) by electric-motor drive unit (17); PMU (20) is storage battery power supply power supply, is timing unit (11), data transmission unit (12), debugging unit (13), infrared detection unit (14), wireless micro-control unit (15), alarm unit (16), electric-motor drive unit (17), linkage door performance element (18), acousto-optic indicating member (19) power supply.

3. a kind of cultivation of the rabbit standardization based on Internet of Things intelligent monitor system according to claim 1, is characterized in that: described illuminance monitor node comprises timing unit (21), data transmission unit (22), debugging unit (23), wireless micro-control unit (24), illuminance collecting unit (25), day regulating and controlling illumination unit (26) and PMU (27); Timing unit (21), data transmission unit (22), debugging unit (23), illuminance collecting unit (25), day regulating and controlling illumination unit (26) are connected with wireless micro-control unit (24) respectively; PMU (27) is storage battery power supply power supply, is timing unit (21), data transmission unit (22), debugging unit (23), wireless micro-control unit (24), illuminance collecting unit (25), day regulating and controlling illumination unit (26) power supply.

4. a kind of cultivation of the rabbit standardization based on Internet of Things intelligent monitor system according to claim 1, is characterized in that: described environmental monitoring node comprises sensor unit (28), Date Conversion Unit (32), data processing unit (34) and PMU (36); Sensor unit (28) is connected with data processing unit (34) by Date Conversion Unit (32); Sensor unit (28) comprises Temperature Humidity Sensor (29), ammonia concentration sensor (30) and CO2 concentration sensor (31); Date Conversion Unit (32) is A/D converting unit (33); Data processing unit (34) is wireless micro-control unit (35); PMU (36) is storage battery power supply power supply, is sensor unit (28), Date Conversion Unit (32), data processing unit (34) power supply.

5. a kind of cultivation of the rabbit standardization based on Internet of Things intelligent monitor system according to claim 1, is characterized in that: described automatic manure-cleaning monitor node comprises timing unit (37), data transmission unit (38), debugging unit (39), wireless micro-control unit (40), signal conditioning circuit (41), drives performance element (42), acousto-optic indicating member (43), gas sensor (44) and PMU (45); Timing unit (37), data transmission unit (38), debugging unit (39), driving performance element (42), acousto-optic indicating member (43) are connected with wireless micro-control unit (40); Gas sensor (44) is connected with wireless micro-control unit (40) by signal conditioning circuit (41); PMU (45) is storage battery power supply power supply, for timing unit (37), data transmission unit (38), debugging unit (39), wireless micro-control unit (40), signal conditioning circuit (41), drives the power supply of performance element (42), acousto-optic indicating member (43), gas sensor (44).

6. a kind of cultivation of the rabbit standardization based on Internet of Things intelligent monitor system according to claim 5, is characterized in that: described gas sensor (44) adopts the ammonia concentration of ME3-NH3 fixed electric potential electroanalysis type ammonia gas sensor Real-time Collection rabbit home; Signal conditioning circuit (41) comprises the operating circuit of potentiostatic circuit and sensor.

7. a kind of cultivation of the rabbit standardization based on the Internet of Things intelligent monitor system according to claim 1 or 2 or 3 or 4 or 5, is characterized in that: described wireless micro-control unit (4), wireless micro-control unit (15), wireless micro-control unit (24), wireless micro-control unit (35), wireless micro-control unit (40) are technical grade JN5168 less radio-frequency microcontroller.