CN116076435A - Intelligent harvesting wild-raising livestock raising method - Google Patents
Intelligent harvesting wild-raising livestock raising method Download PDFInfo
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- CN116076435A CN116076435A CN202310164721.5A CN202310164721A CN116076435A CN 116076435 A CN116076435 A CN 116076435A CN 202310164721 A CN202310164721 A CN 202310164721A CN 116076435 A CN116076435 A CN 116076435A
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K67/00—Rearing or breeding animals, not otherwise provided for; New or modified breeds of animals
- A01K67/02—Breeding vertebrates
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K11/00—Marking of animals
- A01K11/006—Automatic identification systems for animals, e.g. electronic devices, transponders for animals
- A01K11/008—Automatic identification systems for animals, e.g. electronic devices, transponders for animals incorporating GPS
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K29/00—Other apparatus for animal husbandry
- A01K29/005—Monitoring or measuring activity, e.g. detecting heat or mating
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K35/00—Marking poultry or other birds
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K45/00—Other aviculture appliances, e.g. devices for determining whether a bird is about to lay
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/70—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in livestock or poultry
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- Life Sciences & Earth Sciences (AREA)
- Environmental Sciences (AREA)
- Animal Husbandry (AREA)
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- Feeding And Watering For Cattle Raising And Animal Husbandry (AREA)
Abstract
The utility model belongs to an intelligent collection and wild rearing and livestock raising method, which comprises the steps of installing a collection terminal and a GPS positioning terminal on an animal body to collect instructions; placing the animals naturally, and performing wild culture to enable the animals to self-feed and freely grow; when the animal grows up to the weight of the slaughter, a trapping instruction is sent out, a trapping terminal is started, and the animal is shot. The user can get back the shot animal on site according to the GPS positioning data of the shot animal, and the shot animal is caught. By adopting the method, feed is not required to be fed to livestock animals, the raising cost is low, and the method is easy to collect; is especially suitable for raising wild animals such as pheasants, wild pigs, wild sheep and the like which are not domesticated by human beings.
Description
Technical Field
The utility model relates to the technical field of livestock breeding, in particular to an intelligent collection and wild breeding livestock breeding method.
Background
Livestock raising refers to animals domesticated by human beings, such as deer, musk, fox, marten, pig, sheep, cow, chicken, pigeon, etc. Because some consumers prefer natural livestock products and are not willing to purchase products produced in a highly intensive production mode, and factors such as improvement of labor cost and rising of feed price are added, outdoor wild cultivation is considered as a ring of ecological agriculture, and is paid attention again, so that rapid development is expected. Chinese patent application (CN 109197640A) discloses an intelligent livestock system, an intelligent livestock method and a livestock positioning system, but the problem of harvesting is not solved, and particularly the problems of wild breeding and harvesting of wild animals such as pheasants, wild pigs, wild sheep and the like which are not domesticated by human beings are not solved.
Disclosure of Invention
The purpose of the utility model is that: the intelligent wild animal harvesting and livestock raising method is provided, so that when wild animals grow to the weight of a slaughter, a harvesting instruction can be sent to a harvesting terminal through a terminal server end, and the wild animals can be automatically harvested by shooting.
The technical purpose of the utility model is achieved by the following technical scheme.
An intelligent harvesting and wild-raising livestock raising method is characterized by comprising the following steps of:
s1, installing a collecting terminal (comprising a body placed in a body by an operation method) on (each) animal body so as to collect instructions;
s2, putting the animals into nature and carrying out wild culture to enable the animals to self-feed and freely grow; thus, the animals do not need to be fed with feed and manually managed, so that the cost of livestock raising can be greatly reduced;
s3, when the animal grows up to the weight of the slaughter, sending out a capturing instruction, starting a capturing terminal, and hunting the animal.
Preferably, the intelligent collection and wild-cultivation livestock raising method is characterized by comprising the following steps of:
s4, installing a GPS positioning terminal on each animal body to acquire and upload position information such as GPS positioning data of the animal;
s5, setting up a server end (an intelligent collection wild rearing and livestock raising system) for receiving GPS positioning data of the animals and sending a collection instruction;
s6, providing an intelligent (e.g. mobile phone) terminal for a user (pasture owner) to inquire the position of the animal;
s7, the user retrieves the shot animal on site according to the GPS positioning data of the shot animal.
Preferably, the intelligent collection and wild-cultivation livestock raising method is characterized in that: the capture terminal targets a remote or clock-controlled (e.g., anesthesia gun or bomb or needle or dart, etc.) anesthesia (including poison) weapon for the animal; alternatively, the capture terminal targets a remotely or clocked (e.g., high voltage shock-collector, etc.) shocking weapon for the animal; alternatively, the capture terminal is a remote or clock-controlled (e.g., auto-retracting spring lanyard/bungee lanyard, etc.) capture weapon that is hitched to the animal; or the collection terminal aims at a remote control bomb or a clock control bomb of the animal; or the collecting terminal aims at the remote control bullet or the clock control bullet of the animal.
Baidu encyclopedia (Baidu encyclopedia): the anesthetic bullets are classified into injection type anesthetic bullets (injection bullets) and drug anesthetic bullets. The injection projectile is divided into a squib injection projectile, a pressurizing injection projectile, a medicine bag injection projectile, a plastic bullet injection projectile and the like according to different injection power. The anesthesia bomb generally comprises a bomb body, an injection needle, an injection liquid, a power chamber (comprising a power chamber body, a power chamber bottom, a piston push rod and the like), a bomb tail and the like. Most anesthesia bullets are injection type anesthesia bullets. The injection projectile is injected into the target body by using pressure whether the projectile is fixed (with a medicine bag) or the medicine liquid is contained in the warhead (a needle tube). The ignition tube type injection projectile takes gunpowder gas generated by ignition of the ignition tube as emission power; the pressurizing type injection projectile takes pre-filled compressed air as injection power; the cartridge-type injection bomb takes gas generated by chemical reaction of two substances as injection power; the plastic warhead type projectile is powered by the inertia generated when the propellant powder in the projectile is launched. The projectile is mostly split-packed by a warhead and a power room. During the firing, the high-temperature high-pressure gas formed in the power chamber pushes the piston push rod to move to a certain distance while pushing the warhead to move forwards, and the gunpowder gas in the power chamber is sealed to form three-no (micro-sound, micro-smoke and micro-flame) firing. The bullet flies under the action of inertia after obtaining the initial velocity, and when hitting the target, the injection needle pierces the target body, and the bullet stops moving while being blocked, and a firing tube in the bullet fires, ignites the injection powder, forms a high-pressure cavity at the rear part of the bullet, and presses the sealed part of the needle hole of the medicine bag to break, so that the anesthetic liquid is instantaneously injected into the target body. The drug anesthetic pellets are used as pellets, and are shot into the target muscle body in the form of shot to perform anesthetic action, but the anesthetic action is slower, and the actual use is less. In summary, the anesthesia gun, the anesthesia bomb, the anesthesia needle or the anesthesia dart belongs to the current mature weapon, and the anesthesia gun, the anesthesia bomb, the anesthesia needle or the anesthesia dart can be directly used as a capturing terminal by being connected with an electric control device in a purchased manner, and specific installation and use technical details are not needed to be described here.
Bai knowledge: the high-voltage mouse killer is an electric shock weapon such as a high-voltage electric shock trap and is very useful for killing mice, and can be used for sticking the mice on a mouse killing line by stun, and has no harm to people, livestock and the like. The rat killing tool is widely applied to places such as warehouses, hotels, supermarkets, families, breeding industry, food factories, gardens, vegetable fields and the like, and is an efficient rat killing tool. The utility model of China (CN 212116866U) "a high-voltage electric-shock-catching and killing device for livestock and poultry" also discloses a high-voltage electric-shock-catching and killing device. In summary, the high-voltage electric shock collector belongs to the current mature commodity, and can be connected with an electric control device in a commercially available manner to be modified into a collecting terminal for direct use, and specific installation and use technical details are not needed to be described here.
Preferably, the bombs and bullets belong to common general knowledge products, and the electric control device is only arranged on the bombs and bullets, so that the bombs and bullets can be directly used as a collecting terminal, and specific installation and use technical details are not needed to be described here.
In order to facilitate understanding and practice of the present utility model, an intelligent harvesting and herding system embodying the present utility model is described below.
An intelligent harvesting wild farming and animal husbandry system, which is characterized by comprising:
(1) a collecting terminal mounted on the (each) animal body to receive the instruction;
(2) placing said animal naturally and in wild culture; so that the animal is self-feeding and free-growing; thus, the animals do not need to be fed with feed and manually managed, and the cost of livestock raising can be greatly reduced.
Preferably, the intelligent collection and wild-cultivation livestock raising system is characterized by comprising:
(3) a GPS location terminal mounted on (each) said animal's body for acquiring GPS location data uploaded to said animal;
(4) the server end is accessed to the mobile network and is used for receiving the GPS positioning data of the animal and sending a receiving instruction;
(5) an intelligent (e.g. mobile) terminal, which is connected to the mobile network, is used to query the location of the (each) animal.
Preferably, the intelligent collection and wild-cultivation livestock raising system is characterized in that: the capture terminal targets a remote or clock-controlled (e.g., anesthesia gun or bomb or needle or dart, etc.) anesthesia (including poison) weapon for the animal; alternatively, the capture terminal targets a remotely or clocked (e.g., high voltage shock-collector, etc.) shocking weapon for the animal; alternatively, the capture terminal is a remote or clock-controlled (e.g., auto-retracting spring lanyard/bungee lanyard, etc.) capture weapon that is hitched to the animal; or the collection terminal aims at a remote control bomb or a clock control bomb of the animal; or the collecting terminal aims at the remote control bullet or the clock control bullet of the animal.
In summary, the utility model has the following beneficial effects: the feed is not required to be fed, the wild culture cost is low, and the wild culture is easy to collect; is especially suitable for raising wild animals such as pheasants, wild pigs, wild sheep and the like which are not domesticated by human beings.
Drawings
Fig. 1 is a schematic topology diagram of an intelligent harvesting wild farming and livestock raising system according to the present utility model (embodiment one).
Fig. 2 is a schematic view of a wild goat of fig. 1 with a harvesting terminal and a GPS positioning terminal.
Fig. 3 is a schematic view of the external shapes of the capturing terminal and the GPS positioning terminal worn by the wild goats in fig. 2.
Fig. 4 is a schematic diagram of an external shape of the capturing terminal and the GPS positioning terminal in fig. 3.
Fig. 5 is a schematic diagram of a structure of a conventional anesthesia dart.
Fig. 6 is a schematic view of a capturing terminal structure formed by installing the anesthesia dart in a remote control or clock control device in fig. 5.
Fig. 7 is a schematic view of a (high voltage electric shock collector) collecting terminal in (embodiment two).
Fig. 8 is a schematic diagram of a capturing terminal structure of one particle (miniature timed burst anesthetic pellet) in the third embodiment.
Fig. 9 is a circuit diagram of a clocked switch in an embodiment.
Fig. 10 is a circuit diagram of a remote control switch in the embodiment.
Fig. 11 is a circuit diagram of a high voltage electric shock collector used in fig. 7.
Reference numerals: 1-capturing a terminal; 101-a spring; 102-a hot melt rope; 103-an electric heating wire ring; 104- (easy-to-puncture) protective film; 105—aperture edges; 2-animal; 3-an intelligent terminal; 4-a server side; 5-a mobile network; 6-a collar; 601-high voltage line negative electrode; 602-a high voltage line positive electrode; 603-insulating terminals; 7-GPS positioning terminal; 8-anaesthetizing dart; 801-syringe; 802-side hole injection needle; 803-piston push handle; 804-rubber band; 805- (movable) seal ring; 9-a timing switch (module); 10-remote control switch (module); 11-cell; 12-a signal receiving antenna; 13-high voltage generator module.
Detailed Description
The utility model is described in further detail below with reference to figures 1-11 and examples.
Embodiment one.
As shown in fig. 1, 2 and 3, an intelligent wild-type animal raising method includes the following steps:
s1, installing a capturing terminal 1 (including being placed in a body by an operation method) on a young animal 2 such as each wild goat which is not domesticated by human, and the like through a collar 6, so as to enable the capturing terminal 1 to be ready to start to shoot the animal 2 at any time according to a capturing instruction;
s2, putting the animals 2 such as the wild goats and the like into nature, and carrying out wild rearing so that the animals can independently forge and freely grow; in this way, the animals 2 do not need to be fed with feed or manually managed, so that the cost of livestock can be greatly reduced;
and S3, when the animal 2 grows up to the out-of-fence weight, sending out a capturing instruction, and starting the capturing terminal 1 to shoot the animal 2.
Preferably, the intelligent collection and wild-cultivation livestock raising method is characterized by further comprising the following steps:
s4, installing a GPS positioning terminal 7 on the bodies of young animals 2 such as each wild goat and the like which are not domesticated by human beings through a collar 6, and acquiring and uploading GPS positioning data of the animals 2;
s5, setting up a server end (intelligent collection and wild rearing and livestock raising system) connected to the mobile network 5, and receiving GPS positioning data of the animal 2 and sending a collection instruction;
s6, providing the (pasture owner) user with an intelligent (e.g. mobile phone) terminal 3 accessed to a mobile network 5 for the user to inquire the geographic position of the animal 2;
s7, the user retrieves the shot animal 2 on site according to the GPS positioning data of the shot animal 2.
Preferably, as shown in fig. 4, the capturing terminal 1 and the GPS positioning terminal 7 are integrated together and are provided on the collar 6. The GPS positioning terminal 7 for cattle and sheep and the like is a current mature commodity and can be purchased everywhere in online shopping malls. The GPS positioning terminal 7 may purchase a "collar" and its "positioning module" in the related art chinese patent application (CN 109197640 a) "an intelligent livestock system, an intelligent livestock method, and a livestock positioning system", and its technical details are not described herein.
Preferably, as shown in fig. 6, the current anesthesia dart 8 shown in fig. 5 is purchased back and placed in the housing of the capture terminal 1. Two stretched springs 101 are hooked on the injection tube 801 at one end and on the housing of the catch terminal 1 at the other end. One end of a hot melt cord 102 (for example, 160d nylon wire with a melting point of 80 ℃) is hooked on the heating wire ring 103, and the other end is hooked on the injection tube 801, so that the anesthesia dart 8 is in a static balance state under the action of the tension of the spring 101 and the counter tension of the hot melt cord 102. And a piece of protection film 104 which is easy to puncture is smaller than Kong Tieshang at the front end of the housing of the collecting terminal 1. The heating wire ring 103 is connected to the battery 11 through a timing switch (module) 9 or a remote control switch (module) 10, so as to manufacture a remote control (including a network control) or clock control (such as an anesthesia gun or an anesthesia bomb or an anesthesia needle or an anesthesia dart) anesthesia weapon-collecting terminal 1. The collecting terminal 1 is arranged on the collar 6, sleeved on the neck of the animal 2 such as the wild goat, and the needle is aimed at the neck of the animal 2, so that the animal 2 such as the wild goat can be put into natural and wild animal raising, and can automatically find food and grow freely. Thus, the animals 2 do not need to be fed with feed and manually managed, so that the cost of livestock raising can be greatly reduced.
Thus, when the animal 2 grows to the weight of the slaughter, the animal 2 can be shot by sending a command for capturing through the remote control device or the clock control device and starting the capturing terminal 1. The (pasture owner) user can get back the shot animal 2 on site according to the GPS positioning data of the shot animal 2.
As shown in fig. 6 and 9, a clock control method may be adopted, for example, a micro timing switch (module) 9 is purchased from the market, the heating wire ring 103 is connected to the battery 11 through the timing switch (module) 9, and the opening switch time is set to be 10 am hours after two years. Thus, the timing switch (module) 9 is automatically closed at 10 am in mid-autumn after two years, the heating wire ring 103 is electrified to generate heat, and the hot melting rope 104 is blown. Meanwhile, the anesthesia dart 8 pierces the protective film 104 under the pulling of the spring 101, and shoots towards the animal 2, when the side hole injection needle 802 shoots towards the animal 2, the (movable) sealing ring 805 is blocked by the small hole edge 105 and slides towards the rear end, so that the side hole of the side hole injection needle 802 is exposed, and anesthetic liquid is injected into the animal 2 from the side hole under the thrust of the rubber band 804, so that the animal 2 is anesthetized and is captured.
As shown in fig. 6 and 10, the heating wire ring 103 may be connected to the battery 11 through a remote control switch (module) 10 by, for example, purchasing a remote control (preferably, a network control) switch (module) 10 from the market. Thus, when the user needs to collect the electric heating wire, the server 4 sends out a command to close the remote control switch (module) 10, so that the electric heating wire ring 103 is electrified to generate heat, and the hot melting rope 104 is blown. At this time, the anesthetic dart 8 will pierce the protective film 104 under the pulling of the spring 101, and shoot towards the animal 2, when the side hole injection needle 802 shoots towards the animal 2, the (movable) sealing ring 805 will be blocked by the small hole edge 105 and slide towards the rear end, so as to expose the side hole of the side hole injection needle 802, and anesthetic liquid is injected into the animal 2 from the side hole under the thrust of the rubber band 804, so that the animal 2 is anesthetized and captured.
The remote control switch (module) 10 is also called a network control switch (module), is a current mature commodity, such as a mobile phone remote control DAM0200, a TCP/UDP network control switch and the like, and is available everywhere in a network market. An "alarm device" in a "intelligent livestock system, an intelligent livestock method, and a" livestock positioning system "of a background art chinese patent application (CN 109197640 a) may be adopted, and technical details and application schemes thereof are not described herein.
The clock control switch (module) 9 is also called a timing switch (module), is a current mature commodity and is available everywhere in online shopping malls. A "a modularized intelligent timing switch" of chinese patent application (CNN 108156783B) may be adopted, and its technical details and application schemes are not described herein.
Embodiment two.
Fig. 1, 7 and 11 show an intelligent harvesting wild farming and livestock raising system, which is characterized in that the system comprises:
(1) a collection terminal 1 mounted on the body of each wild animal 2 such as pheasant, wild goat, wild pig, etc. to collect the instruction;
(2) placing the natural and wild-bred animals 2 so as to enable the animals 2 to independently forge and grow freely; thus, the animals 2 do not need to be fed with feed and manually managed, so that the cost of livestock raising can be greatly reduced.
Preferably, the intelligent harvesting wild farming and livestock raising system preferably comprises:
(3) a GPS positioning terminal 7 mounted on the body of each of the animals 2 for acquiring GPS positioning data uploaded to the animal 2;
(4) a server end 4 connected to a mobile network 5 for receiving the GPS positioning data of the animal 2 and sending a receiving instruction;
(5) an intelligent (e.g. mobile) terminal 3, which is connected to a mobile network 5, is used to query the location of each animal 2. In this way, when the animal 2 grows to the weight of the animal out of the fence, the intelligent (e.g. mobile phone) terminal 3 and the server 4 can send out a capturing command, and the capturing terminal 1 is started to shoot the animal 2. Then, the user retrieves the shot animal 2 on site according to the GPS positioning data of the shot animal 2, thereby realizing the capturing.
Preferably, the intelligent collection and wild-cultivation livestock raising system is characterized in that: the capture terminal 1 targets a remote or clock-controlled (e.g., anesthesia gun or bomb or needle or dart, etc.) anesthesia (including poison) weapon for the animal 2; alternatively, the capture terminal 1 targets a remotely or clocked (e.g., high voltage electric shock trap, etc.) shocking weapon for the animal; alternatively, the capture terminal 1 is a remote or clock-controlled (e.g. auto-retractable spring lanyard/bungee lanyard, etc.) capture weapon that is hitched to the animal; or, the collecting terminal 1 aims at a remote control bomb or a clock control bomb of the animal; alternatively, the capture terminal 1 targets a remote or clock bullet for the animal.
Preferably, as shown in fig. 4, the capturing terminal 1 and the GPS positioning terminal 7 are integrated together and are provided on the collar 6. The GPS positioning terminal 7 for cattle and sheep and the like is a current mature commodity, is available everywhere in the online mall, and is also introduced in an intelligent livestock system, an intelligent livestock method and a livestock positioning system in the background technology of China patent application (CN 109197640A), and the technical details of the GPS positioning terminal are not needed to be described here.
Preferably, as shown in fig. 7 and 11, a high voltage electric shock collector-and-trap terminal 1 is manufactured which comprises a remote control switch 10 (module) or a clock control switch 9 (module). After the high-voltage line negative electrode 601 and the high-voltage line positive electrode 602 of the collecting terminal 1 are manufactured into a collar 6 through the insulating terminal 603 and hung on the neck of the animal 2 such as the wild goat, the pheasant and the like in a sleeved mode, the animal 2 can be put into nature, raised in the wild and raised in the animal, and can be made to independently forge and grow freely. Thus, the animals 2 do not need to be fed with feed and manually managed, so that the cost of livestock raising can be greatly reduced.
The high-voltage electric shock collector is a current mature commodity, and can adopt a circuit scheme in China utility model (CN 212116866U) 'A high-voltage electric collector for livestock and poultry'. The technical details and application schemes thereof are not described in detail herein.
Thus, when the animal 2 grows to the weight of the slaughter, the animal 2 can be shot by sending a command for capturing through the remote control device or the clock control device and starting the capturing terminal 1. The user (pasture owner) can get back the shot animal 2 on site according to the GPS positioning data of the shot animal 2, and the trapping is realized.
Embodiment three.
As shown in fig. 8, a miniature timed blasting anesthetic pellet is manufactured as a collecting terminal 1, the blasting time is set, the miniature timed blasting anesthetic pellet is placed into an animal 2 in a surgical mode, and the miniature timed blasting anesthetic pellet is naturally placed and is raised in the wild, so that the animal 2 can independently find food and grow freely. Thus, the animals 2 do not need to be fed with feed and manually managed, so that the cost of livestock raising can be greatly reduced. When the animal 2 grows up to the set time, the miniature timed blasting anesthesia pill can be automatically detonated, so that the animal 2 is shot and killed. The user (pasture owner) can get back the shot animal 2 on site according to the GPS positioning data of the shot animal 2, and the trapping is realized.
The specific embodiments are illustrative of the utility model and are not intended to be limiting, as modifications would be apparent to those skilled in the art upon reading the specification without inventive contribution to the embodiment.
Claims (3)
1. An intelligent harvesting and wild-raising livestock raising method is characterized by comprising the following steps of:
s1, installing a capturing terminal on an animal body to capture an instruction;
s2, putting the animals into nature and carrying out wild culture to enable the animals to self-feed and freely grow;
s3, when the animal grows up to the weight of the slaughter, sending out a capturing instruction, starting a capturing terminal, and hunting the animal.
2. The intelligent harvesting wild farming method according to claim 1, comprising the steps of:
s4, installing a GPS positioning terminal on the animal body to acquire and upload GPS positioning data of the animal;
s5, setting a server end for receiving GPS positioning data of the animal and sending a receiving instruction;
s6, providing an intelligent terminal for a user to inquire the position of the animal;
s7, the user retrieves the shot animal on site according to the GPS positioning data of the shot animal.
3. An intelligent harvesting wild farming method according to claim 1 or 2, characterized by: the collection terminal aims at a remote control or clock control anesthesia weapon of the animal; or the receiving terminal aims at a remote control or clock control electric shock weapon of the animal; or the collecting terminal is a remote control or clock control sleeve-catching weapon for sleeving the animal; or the collection terminal aims at a remote control bomb or a clock control bomb of the animal; or the collecting terminal aims at the remote control bullet or the clock control bullet of the animal.
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