CN108812396A - Magnet-type livestock tag intelligent monitoring identification device, monitoring system and monitoring method - Google Patents

Abstract

The invention discloses a kind of magnet-type livestock tag intelligent monitoring identification devices, including RFID coil, wiring board, the central processing unit being installed on wiring board, clock circuit, memory, Hall sensor, magnetometric sensor and transmission circuit and the magnet being installed on the first handle of clamp；The invention also discloses a kind of magnet-type livestock tag intelligent monitor systems, including magnet-type livestock tag intelligent monitoring identification device, mobile communication equipment and Cloud Server；The invention also discloses the monitoring methods that a kind of magnet-type livestock tag intelligent monitoring identification device or magnet-type livestock tag intelligent monitor system use, and first determine that handle closes up in place and is determined as really wearing reactivation electronic tag after mark.The present invention, which has the function of automatically determining handle and closes up really to be worn on animal earlap with ear tag and obtain, accurately wears the mark time, with prevent vacation wear mark phenomenon and allow animal identification can depth retrospect, and structure it is simple, convenient for operation.

Description

Magnet-type livestock tag intelligent monitoring identification device, monitoring system and monitoring method

Technical field

The present invention relates to a kind of livestock tag relevant devices more particularly to a kind of magnet-type livestock tag intelligent monitoring to identify Device, monitoring system and monitoring method.

Background technique

With the improvement of the national economy, China Meat consumption proportion improves year by year, livestock-raising also from casual household cultivate towards Large-scale cultivation transformation.Ear tag is the key means for livestock individual identification, plays crucial work to the related retrospect of meat product With.So ear tag must have after carrying out pairing registration in system, must just have unique and can not permanently be transferred to Function on the livestock of other end.However, since existing product can not really determine whether ear tag is really worn on livestock earlap, sternly The function of tracing to the source of weakening ear tag again, hides some dangers for food safety.Therefore, it can be detected automatically there is an urgent need to one kind and wear mark very The monitoring system of reality.

Existing ear tag shape is similar, is all made of public affairs mark and female mark two parts.Public affairs, which are put on to be printed on, two dimensional code sum number font The ear tag number of formula can be distinguished by human eye or optical device.It include low frequency chip in partial public mark or female mark, it can be with Ear tag number is read by radio frequency reading device.Ear tag needs to be worn on earlap with clamp.Clamp are similar to pliers, both ends of dehiscing It can close up.One public mark and a female mark are individually fixed in two handle front ends of clamp.By exerting a force to handle rear end, clamp Close up, public affairs mark pierces through animal earlap, and is fixed on inside female mark.After the completion of wearing mark, wearing mark personnel can be in paper shelves or mobile terminal Record oneself wears the information such as mark time, worn ear tag number.

Traditional mark process of wearing has clamp to wear mark, information record and wears mark three processes of sampling observation.When wearing mark, traditional clamp Ear tag can only be worn by mechanics effect, do not have information collection, storage and supervisory role, it is whether true it is even more impossible to differentiate ear tag Beat on animal earlap.Wear target relevant information typing, it is necessary to carry out by hand on paper shelves or mobile communication terminal.As for ear The typing of label, it is necessary to which again identifying that for equipment is identified by ear tag.Due to traditional ear tag regardless of whether being worn on livestock, Ear tag number can be read at any time, can not accurately be traced to the source livestock.Due to that can not determine it is dynamic whether ear tag is really worn on Object earlap, wearing mark personnel, not necessarily strict implement wears mark task, and no marking case of ear tags is serious.Since farm's animal numbers are more, And ear tag is difficult to distinguish at a distance, performs practically no function so wearing mark sampling observation.

Time-consuming for traditional mark process of wearing, cumbersome, is easy to make a mistake.Cumbersome process increases the work for wearing mark operator It bears, also increases the manpower consumption of farm.It is artificial due to being relied on during data input, so information is in typing and remittance Have during total very big mistakes and omissions may, so wear the statistics of mark sum often with actually wear mark number and be not inconsistent.Further, since passing Ear tag unite regardless of whether being worn on livestock, ear tag number can be read, and be not easy to differentiation and used and be not used Ear tag.This causes ear tag number after being logged system, still is able to use on livestock, and anti-cheating property is not strong.Due to tradition Clamp can not determine whether ear tag is really worn on livestock earlap, hide some dangers for mark authenticity is worn.It is not necessarily tight to wear mark personnel Mark task is worn in lattice execution, no marking even not earmarking the case where it is very serious.Many cultivation units, which are only given, delivers livestock for sale and wears mark, does not give The livestock that dies of illness wears mark.These situations have seriously undermined the function of tracing to the source of ear tag.

To solve the above-mentioned problems, the applicant has applied for entitled " intelligent monitoring and controlling device of livestock tag, monitoring system And monitoring method " patent of invention, preferably realize the purpose of intelligent monitoring ear tag wearing information, but the invention includes electricity Sub- monitoring device, clamp close up sensing device and ear tag number identification equipment and are installed on different location, and structure is relative complex, inconvenient Operated in installation, and its to wear target judgement be not very accurate for true and false.

Summary of the invention

The object of the invention is that provide to solve the above-mentioned problems, a kind of structure is simpler and true and false mark of wearing is sentenced Disconnected more accurate magnet-type livestock tag intelligent monitoring identification device, monitoring system and monitoring method.

The present invention is achieved through the following technical solutions above-mentioned purpose：

A kind of magnet-type livestock tag intelligent monitoring identification device, the livestock tag are worn on livestock earlap by clamp, The clamp include the first handle and second handle of middle part mutually rotation connection, and the public mark and female mark of the livestock tag are being worn The front end for being mounted on the first handle and the second handle, the magnet-type livestock tag intelligent monitoring are respectively corresponded when wearing Identification device includes RFID coil and wiring board, and central processing unit is equipped on the wiring board, and the wiring board is installed on institute The front end outer side of second handle is stated, the RFID coil is correspondingly connected with the central processing unit, the magnet-type livestock tag Intelligent monitoring identification device further includes the clock circuit being installed on the wiring board, memory, Hall sensor, magnetic force sensing Device and transmission circuit and the magnet being installed on the first handle, the signal output end of the clock circuit and the center The clock signal input terminal of processor connects, and the memory is connect with the storage end of the central processing unit, the transmitting-receiving electricity The internal communication end on road is connect with the communication ends of the central processing unit, the signal output end of the Hall sensor and the magnetic The signal output end of force snesor is connect with the detection signal input part of the central processing unit respectively；The magnet passes through magnet Bracket is installed on the back segment of the first handle and close to the Hall sensor and the magnetometric sensor.

In above structure, central processing unit, clock circuit, Hall sensor, magnetometric sensor, memory and transmission circuit Existing conventional components or custom circuit is respectively adopted, wherein clock circuit provides real time clock information for central processing unit, as Central processing unit determines the basis of time for wearing mark information；Hall sensor for incude itself position because with magnet apart from not With and generate magnetic field high low signal and be just transmitted to central processing unit；Magnetometric sensor is for incuding itself position The variation of magnetic force signal that generates and central processing unit is just transmitted to due to different from magnet distance；Due to wiring board and magnet It is respectively arranged in second handle front end and first handle back segment, so when first handle and second handle open, hall sensing Device and magnetometric sensor are and magnet is near the magnetic that the magnetic field signal and magnetometric sensor that Hall sensor detects detect Force signal is most strong, when first handle and second handle close up, Hall sensor and magnetometric sensor and magnet farthest away from, The magnetic force signal that the magnetic field signal and magnetometric sensor that Hall sensor detects detect is most weak；Central processing unit is to Hall The information of sensor and magnetometric sensor is analyzed, and can relatively accurately judge whether clamp close up and whether complete true Wear mark movement；Memory wears mark information for storing, as the foundation for being timely transmitted to external equipment or later period inquiry；Transmitting-receiving electricity Road is sent to external equipment for that will wear mark information if necessary.

For the ease of installing and applying, the wiring board is installed on outside the front end of the second handle by fixed connecting plate Each device on side, the wiring board and the wiring board is placed in shell.

A kind of magnet-type livestock tag intelligent monitor system, including magnet-type livestock tag intelligent monitoring identification dress Set, mobile communication equipment and Cloud Server, the transmission circuit of the magnet-type livestock tag intelligent monitoring identification device respectively with The mobile communication equipment and the corresponding communication connection of the Cloud Server.

A kind of magnet-type livestock tag intelligent monitoring identification device or the magnet-type livestock tag intelligent monitoring system The monitoring method that system uses, includes the following steps：

Step 1：Magnet-type livestock tag intelligent monitoring identification device is for electrically activating；

Step 2：When the first handle and second handle of clamp start to close up, triggering Hall sensor work, Hall sensor root According to itself the corresponding output signal of variation generation and central processing unit is sent by output signal the distance between to magnet；

Step 3：Central processing unit judges whether first handle and second handle close up in place, directly according to the signal of Hall sensor Close up in place to determining first handle and second handle；Meanwhile central processing unit acquires magnetic data simultaneously by magnetometric sensor Judge whether this movement is really to wear mark according to the magnetic data, until determining that this movement wears mark to be true；In this step The operation of central processor can also be completed and pass through transmission circuit to transmit data by Cloud Server；

Step 4：After central processing unit determines this movement really to wear mark, driving RFID coil issues activation signal；

Step 5：It is placed in the public ear tag electronic tag put on and receives and be transformed into state of activation from dormant state after activation signal, and Return signal is to central processing unit；

Step 6：Central processing unit drives RFID coil to issue and reads mark signal；

Step 7：Ear tag electronic tag gives central processing unit reply ear tag number after receiving reading mark signal；

Step 8：Central processing unit records in memory once wears mark information, includes working as ear tag number and clock circuit in record The preceding time；

Step 9：If the magnet-type livestock tag intelligent monitoring identification device and external mobile communication equipment and cloud service Device communication connection then crosses central processing unit the mark information of wearing in memory and is sent to mobile communication equipment and Cloud Server, no Then without this step.

Preferably, in the step 3, central processing unit judges first handle and second-hand according to the signal of Hall sensor The method whether handle closes up in place is：If the magnetic field signal that Hall sensor transmission comes is by short to weak and in low-intensity magnetic field when by force It wouldn't become, then be judged as that first handle and second handle close up in place；Central processing unit judges that this is dynamic according to the magnetic data It whether is really to wear calibration method to be：If first dramatic decrease, of short duration flat is presented in the magnetic force signal that magnetometric sensor transmission comes Surely, the characteristics of rapidly rising again is then judged as and really wears mark.

The beneficial effects of the present invention are：

Hall sensor and magnetometric sensor and ear tag number identification equipment are all integrated in a magnet-type livestock ear by the present invention In mark intelligent monitoring identification device and it is installed on a handle front end of clamp, is made it have and is automatically determined handle and close up and ear tag It is really worn on animal earlap and obtains the function of accurately wearing the mark time, wearing mark to prevent vacation phenomenon and allows animal identification can depth Retrospect, and structure is simple, is convenient for operation；Specifically advantage is：

Close up or open the spy changed with clamp handle by the distance between Hall sensor, magnetometric sensor and magnet Point realizes the low-power consumption and linkage characteristic of ear tag electronic tag, equipment can be worked long hours；

It by the real-time detection of Hall sensor, determines whether handle closes up, by the real-time detection of magnetometric sensor, determines ear Whether mark is really worn on animal earlap, prevents vacation and wears mark phenomenon, the two, which combines, more reliably determines that ear tag wears true feelings Shape；

It is obtained by clock circuit and accurately wears the mark time, millisecond can be accurate to；

After the completion of wearing mark, Cloud Server and mobile communication equipment can be automatically uploaded to by wearing mark data, realize remote real-time monitoring.

Detailed description of the invention

Fig. 1 is the circuit block diagram of magnet-type livestock tag intelligent monitoring identification device of the present invention；

Fig. 2 be magnet-type livestock tag intelligent monitoring identification device of the present invention be installed on clamp schematic perspective view it One, public mark and female mark in figure are not installed on clamp；

Fig. 3 be magnet-type livestock tag intelligent monitoring identification device of the present invention be installed on clamp schematic perspective view it Two, public mark and female mark in figure are already installed on clamp；

Fig. 4 be magnet-type livestock tag intelligent monitoring identification device of the present invention be installed on clamp schematic perspective view it Three, fixed connecting plate, RFID coil, wiring board, battery, shell and USB dust cover therein are decomposition diagram, are not shown in figure Public mark and female mark out；

Fig. 5 be the application perspective view that is installed on after clamp of magnet-type livestock tag intelligent monitoring identification device of the present invention it One, it is shown as in figure wearing the initial position of mark operation；

Fig. 6 be the application perspective view that is installed on after clamp of magnet-type livestock tag intelligent monitoring identification device of the present invention it Two, it is shown as in figure wearing the starting position of mark operation；

Fig. 7 be the application perspective view that is installed on after clamp of magnet-type livestock tag intelligent monitoring identification device of the present invention it Three, be shown as in figure wearing mark operation start wear cursor position；

Fig. 8 be the application perspective view that is installed on after clamp of magnet-type livestock tag intelligent monitoring identification device of the present invention it Four, be shown as wearing mark operation in figure wears mark successful location；

Fig. 9 is the circuit block diagram of magnet-type livestock tag intelligent monitor system of the present invention；

Figure 10 be reaction really wear mark during between the magnetometric sensor magnetic force signal detected and magnetometric sensor and magnet The curve synoptic diagram of distance change；

Figure 11 be reaction falseness wear mark during between the magnetometric sensor magnetic force signal detected and magnetometric sensor and magnet The curve synoptic diagram of distance change.

Specific embodiment

The present invention will be further explained below with reference to the attached drawings：

As Figure 1-Figure 4, magnet-type livestock tag intelligent monitoring identification device of the present invention, the livestock tag pass through card Pincers are worn on livestock earlap, and the clamp include the first handle 7 and second handle 6 of middle part mutually rotation connection, the domestic animal The public mark 2 and female mark 1 of poultry ear tag respectively correspond the front end for being mounted on first handle 7 and second handle 6, the magnet when wearing Formula livestock tag intelligent monitoring identification device includes RFID coil 32, wiring board 33, the central processing being installed on wiring board 33 Device, clock circuit, memory, Hall sensor, magnetometric sensor and transmission circuit and the magnet being installed on first handle 7 4, wiring board 33 is installed on the front end outer side of second handle 6 by fixed connecting plate 31（Downside in figure）, RFID coil 32 and institute It states central processing unit to be correspondingly connected with, the clock signal input terminal of the signal output end of the clock circuit and the central processing unit Connection, the memory connect with the storage end of the central processing unit, the internal communication end of the transmission circuit with it is described in The communication ends of central processor connect, the signal output end point of the signal output end of the Hall sensor and the magnetometric sensor It is not connect with the detection signal input part of the central processing unit；After magnet 4 is installed on first handle 7 by magnet holder 8 Section and the close Hall sensor and the magnetometric sensor.Electronic tag shown in Fig. 1 and Fig. 9 is mounted to public mark 2 On ear tag electronic tag, be conventional component；Fig. 2-Fig. 8 also shows the back segment for being installed on first handle 7 and second handle 6 Between reset spring 5, also show battery 34, shell 35 in Fig. 4 and be installed on shell 25 for covering USB interface USB dust cover 36.

In above structure, central processing unit, clock circuit, memory, Hall sensor, magnetometric sensor and transmission circuit It is not shown in product figure, the RFID coil of Fig. 1 refers to identical with the RFID coil 32 of other figures；Central processing unit, clock Circuit, memory, Hall sensor, magnetometric sensor, transmission circuit, wiring board 33, RFID coil 32, battery 34, USB are dust-proof Cover 36 is placed in shell 35, and shell 35 links together with fixed connecting plate 31, and integrally-built monitoring module is collectively formed 3, structure is simple, easy for installation.

As shown in figure 9, magnet-type livestock tag intelligent monitor system of the present invention includes the magnet-type livestock tag Intelligent monitoring identification device, mobile communication equipment and Cloud Server, the magnet-type livestock tag intelligent monitoring identification device Transmission circuit communication connection corresponding with the mobile communication equipment and the Cloud Server respectively.

As shown in Figure 1-Figure 11, magnet-type livestock tag intelligent monitoring identification device of the present invention or the magnet-type domestic animal The monitoring method that ear tag intelligent monitor system uses is raiseeed, is included the following steps：

Step 1：Magnet-type livestock tag intelligent monitoring identification device is for electrically activating；

Step 2：When the first handle 7 and second handle 6 of clamp start to close up, triggering Hall sensor work, Hall sensor According to itself the corresponding output signal of variation generation and central processing unit is sent by output signal the distance between to magnet 4；This In step, state that first handle 7 and second handle 6 do not close up is as shown in figure 5, in magnet 4 and monitoring module 3 suddenly at this time Your the distance between sensor and magnetometric sensor L1 is minimum, about 6mm；First handle 7 and second handle 6 start the shape closed up State as shown in fig. 6, at this time magnet 4 in monitoring module 3 Hall sensor and the distance between magnetometric sensor L2 it is bigger, about For 8mm；First handle 7 and second handle 6 close up and start to wear mark（When i.e. public mark 2 is initially inserted into female mark 1）State such as Fig. 7 institute Show, at this time magnet 4 in monitoring module 3 Hall sensor and the distance between magnetometric sensor L2 it is bigger, about 16mm；The One handle 7 and second handle 6, which close up in place and wear, to be marked successfully（When i.e. public mark 2 is fully inserted into female mark 1）State as shown in figure 8, The distance between the Hall sensor in magnet 4 and monitoring module 3 and magnetometric sensor L2 are maximum at this time, about 24mm；

Step 3：Central processing unit judges whether first handle 7 and second handle 6 close up in place according to the signal of Hall sensor, Until determining that first handle 7 and second handle 6 close up in place, specific method is：If the magnetic field letter that Hall sensor transmission comes Number by by force to it is weak and be in low-intensity magnetic field when it is of short duration constant, then be judged as that first handle and second handle close up in place；Meanwhile center Processor acquires magnetic data by magnetometric sensor and judges whether this movement is really to wear mark according to the magnetic data, directly To this movement is determined really to wear mark, specific method is：If the magnetic force signal that magnetometric sensor transmission comes is presented first rapidly Decline, of short duration steady, the characteristics of rapidly rising again, then be judged as and really wear mark, as shown in Figure 10；Mark is worn if it is vacation, then magnetic The characteristics of magnetic force signal that force snesor transmission comes easily is presented first dramatic decrease and then slow decline, slowly rises again, such as Figure 11 It is shown；The operation of this step central processing unit can also be completed and pass through transmission circuit to transmit data by Cloud Server；

Step 4：After central processing unit determines this movement really to wear mark, driving RFID coil 32 issues activation signal；

Step 5：The ear tag electronic tag being placed on public mark 2 receives and is transformed into state of activation from dormant state after activation signal, And return signal is to central processing unit；

Step 6：Central processing unit drives RFID coil 32 to issue and reads mark signal；

Step 7：Ear tag electronic tag gives central processing unit reply ear tag number after receiving reading mark signal；

Step 8：Central processing unit records in memory once wears mark information, includes working as ear tag number and clock circuit in record The preceding time；

Step 9：If the magnet-type livestock tag intelligent monitoring identification device and external mobile communication equipment and cloud service Device communication connection then crosses central processing unit the mark information of wearing in memory and is sent to mobile communication equipment and Cloud Server, no Then without this step.

Above-described embodiment is presently preferred embodiments of the present invention, is not a limitation on the technical scheme of the present invention, as long as Without the technical solution that creative work can be realized on the basis of the above embodiments, it is regarded as falling into the invention patent Rights protection scope in.

Claims (5)

1. a kind of magnet-type livestock tag intelligent monitoring identification device, the livestock tag are worn on livestock earlap by clamp On, the clamp include the first handle and second handle of middle part mutually rotation connection, the public mark and female mark of the livestock tag The front end for being mounted on the first handle and the second handle, the magnet-type livestock tag intelligence are respectively corresponded when wearing Monitoring identification device includes RFID coil and wiring board, and central processing unit, the wiring board installation are equipped on the wiring board In the front end outer side of the second handle, the RFID coil is correspondingly connected with the central processing unit, it is characterised in that：It is described Magnet-type livestock tag intelligent monitoring identification device further includes the clock circuit, memory, Hall being installed on the wiring board Sensor, magnetometric sensor and transmission circuit and the magnet being installed on the first handle, the signal of the clock circuit Output end is connect with the clock signal input terminal of the central processing unit, the storage end of the memory and the central processing unit Connection, the internal communication end of the transmission circuit are connect with the communication ends of the central processing unit, the letter of the Hall sensor The signal output end of number output end and the magnetometric sensor is connect with the detection signal input part of the central processing unit respectively； The magnet is installed on the back segment of the first handle by magnet holder and passes close to the Hall sensor and the magnetic force Sensor.

2. magnet-type livestock tag intelligent monitoring identification device according to claim 1, it is characterised in that：The wiring board The front end outer side of the second handle, each device on the wiring board and the wiring board are installed on by fixed connecting plate It is placed in shell.

3. a kind of magnet-type livestock tag intelligent monitor system, it is characterised in that：Including magnet-type domestic animal as described in claim 1 Ear tag intelligent monitoring identification device is raiseeed, further includes mobile communication equipment and Cloud Server, the magnet-type livestock tag is intelligently supervised Control the transmission circuit communication connection corresponding with the mobile communication equipment and the Cloud Server respectively of identification device.

4. a kind of magnet-type livestock tag intelligent monitoring identification device as claimed in claim 1 or 2 is as claimed in claim 3 Magnet-type livestock tag intelligent monitor system use monitoring method, it is characterised in that：Include the following steps：

Step 1：Magnet-type livestock tag intelligent monitoring identification device is for electrically activating；

Step 2：When the first handle and second handle of clamp start to close up, triggering Hall sensor work, Hall sensor root According to itself the corresponding output signal of variation generation and central processing unit is sent by output signal the distance between to magnet；

Step 3：Central processing unit judges whether first handle and second handle close up in place, directly according to the signal of Hall sensor Close up in place to determining first handle and second handle；Meanwhile central processing unit acquires magnetic data simultaneously by magnetometric sensor Judge whether this movement is really to wear mark according to the magnetic data, until determining that this movement wears mark to be true；In this step The operation of central processor can also be completed and pass through transmission circuit to transmit data by Cloud Server；

Step 4：After central processing unit determines this movement really to wear mark, driving RFID coil issues activation signal；

Step 5：It is placed in the public ear tag electronic tag put on and receives and be transformed into state of activation from dormant state after activation signal, and Return signal is to central processing unit；

Step 6：Central processing unit drives RFID coil to issue and reads mark signal；

Step 7：Ear tag electronic tag gives central processing unit reply ear tag number after receiving reading mark signal；

Step 8：Central processing unit records in memory once wears mark information, includes working as ear tag number and clock circuit in record The preceding time；

Step 9：If the magnet-type livestock tag intelligent monitoring identification device and external mobile communication equipment and cloud service Device communication connection then crosses central processing unit the mark information of wearing in memory and is sent to mobile communication equipment and Cloud Server, no Then without this step.

5. monitoring method according to claim 4, it is characterised in that：In the step 3, central processing unit is passed according to Hall The method that the signal of sensor judges whether first handle and second handle close up in place is：If the magnetic that Hall sensor transmission comes Field signal by by force to it is weak and be in low-intensity magnetic field when it is of short duration constant, then be judged as that first handle and second handle close up in place；Center Processor judges whether this movement is really to wear calibration method to be according to the magnetic data：If magnetometric sensor transmission comes First dramatic decrease, of short duration steady, the characteristics of rapidly rising again is presented in magnetic force signal, then is judged as and really wears mark.