CN220068537U - Novel anticreep intelligence animal ear tag - Google Patents
Novel anticreep intelligence animal ear tag Download PDFInfo
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- CN220068537U CN220068537U CN202321609259.7U CN202321609259U CN220068537U CN 220068537 U CN220068537 U CN 220068537U CN 202321609259 U CN202321609259 U CN 202321609259U CN 220068537 U CN220068537 U CN 220068537U
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Abstract
A novel anticreep intelligence animal ear tag, includes: male label, female label and magnetic button. The male mark is provided with a positioning ear needle and at least one auxiliary ear needle. One end face of the female label facing the male label is provided with a positioning pinhole and at least one auxiliary pinhole. The magnetic button is arranged in the female mark and corresponds to the position of the positioning pinhole. The positioning ear needle is used for penetrating through the positioning needle hole and the magnetic buckle to be fixedly connected, and the end part of the auxiliary ear needle is used for being placed in the auxiliary needle hole to limit the position of the male mark relative to the female mark. Because some structural parts can be arranged in the female mark of the animal ear tag, the internal space of the female mark is larger, namely the thickness of the female mark can be larger, and the depth of a pinhole formed in the female mark can be larger. When the depth of seting up supplementary pinhole can be great on female mark, be convenient for combine the thickness of different animal ears to accomodate the supplementary auricle of different length, avoid supplementary auricle and the unable phenomenon emergence of buckling of supplementary pinhole, improve the fastness that animal ear tag was worn.
Description
Technical Field
The utility model relates to the technical field of ear tags in the livestock industry, in particular to a novel anti-drop intelligent animal ear tag.
Background
For traditional animal husbandry, in order to be convenient for manage, can take the ear tag to a plurality of livestock of raising respectively, can be quick discern livestock information through the ear tag. However, the traditional animal husbandry animal ear tag sold in the market at present has the problems that the ear tag worn by the animal is not firm, so that the problem that the ear tag is loosened and falls off easily in the process of interaction, mutual biting or self-movement of the animal occurs, and meanwhile, the ear tag is fixed not firmly, so that physical injury to the ear of the animal is easily caused. Thus, there is a need to develop a securely worn animal ear tag.
Disclosure of Invention
The utility model provides a novel anti-drop intelligent animal ear tag, which mainly aims to improve wearing firmness of the animal ear tag.
The embodiment of the utility model provides a novel anti-drop intelligent animal ear tag, which comprises the following components:
the male tag is provided with a positioning ear pin and at least one auxiliary ear pin;
a female mark, wherein one end surface of the female mark facing the male mark is provided with a positioning pinhole and at least one auxiliary pinhole; and
the magnetic buckle is arranged in the female mark and corresponds to the position of the positioning pinhole;
the positioning ear needle is used for penetrating through the positioning needle hole and fixedly connected with the magnetic buckle, and the end part of the auxiliary ear needle is used for being placed in the auxiliary needle hole so as to limit the position of the male mark relative to the female mark.
In one embodiment, the device further comprises a spring thimble, the spring thimble is arranged on one end face of the female tag towards the male tag, the spring thimble is arranged opposite to the end face of the female tag in a protruding mode, and the spring thimble is used for being in close contact with the livestock ear to trigger the control detection element in the female tag.
In one embodiment, the control detection element further comprises a pressure sensor, and the control detection element comprises a processor, a temperature sensor, a motion sensor and a communication unit; the pressure sensor is connected with the spring thimble and is used for triggering the processor or triggering the processor, the temperature sensor and the motion sensor according to a pressure signal generated by the spring thimble; the temperature sensor, the motion sensor and the communication unit are all connected with the processor; the temperature sensor is used for collecting temperature signs of livestock and sending the temperature signs to the processor, and the processor is used for processing the temperature signs and sending temperature signals through the communication unit; the motion sensor is used for collecting motion signs of livestock and generating the motion signs to the processor, and the processor is used for processing the motion signs and sending motion signals through the communication unit; the processor is also configured to receive a control signal via the communication unit.
In one embodiment, the control detecting element further comprises an electronic tag, wherein the electronic tag is connected with the processor, and the electronic tag is used for storing identity information of livestock.
In one embodiment, the female mark comprises a storage shell and an end cover, the magnetic buckle is arranged in a space formed by enclosing the storage shell and the end cover, and the storage shell is provided with the positioning pinhole and the auxiliary pinhole.
In an embodiment, the storage shell includes main body shell and division board, the end cover with the connection can be dismantled to the main body shell, the division board set up in the lateral wall outside of main body shell, the division board with form the interval space between the lateral wall of main body shell, set up at least one spacing post in the interval space, the both sides of spacing post respectively with the division board with the lateral wall of main body shell is connected, set up on the spacing post auxiliary pinhole.
In one embodiment, the partition plate and the side wall of the main body case are arranged in parallel, and two ends of the partition plate along the length direction are respectively fixed on the side wall of the main body case.
In one embodiment, a magnetic groove is arranged in the storage shell, a magnetic bin corresponding to the position of the magnetic groove is arranged on the end cover, and a space between the magnetic groove and the magnetic bin is used for placing the magnetic buckle.
In one embodiment, the auxiliary needle hole or the orifice of the auxiliary needle hole is arranged at a limit ring, and the limit ring is used for being tightly matched with the auxiliary ear needle.
In one embodiment, the male mark is provided with one positioning ear pin and two auxiliary ear pins, and the one positioning ear pin and the two auxiliary ear pins are distributed on one end face of the male mark facing the female mark in a regular triangle; the female mark is provided with one positioning needle hole and two auxiliary needle holes, the positions of the positioning needle holes and the positions of the positioning ear needles are correspondingly arranged, and the positions of the auxiliary needle holes and the positions of the auxiliary ear needles are correspondingly arranged.
According to the novel anti-drop intelligent animal ear tag in the embodiment, the animal ear tag is conveniently fixed on the animal ear by means of the magnetic force buckle cooperation in the positioning ear needle and the female tag. Through the cooperation of supplementary pinhole on supplementary ear needle and the female mark, can restrict the radial position of public mark relative female mark, effectively prevent public mark and female mark and cause physical injury to the animal ear owing to take place relative slip. And, location pinhole and auxiliary pinhole all set up on female mark, because the female mark inside of intelligent animal ear tag can set up some structure usually, for example magnetic force knot, lead to female mark inside space bigger, and the thickness of female mark can be bigger promptly, and the pinhole degree of depth of seting up on female mark just so also can be bigger. When the depth of seting up supplementary pinhole can be greater some on female mark, be convenient for combine the thickness of different animal ears to accomodate the supplementary auricle of different length, even thicker animal ear, the tip of accomodating supplementary auricle that supplementary pinhole also can be fine avoids supplementary auricle and the unable phenomenon of buckling of supplementary pinhole to take place, improves the fastness that animal ear mark was worn.
Drawings
FIG. 1 is a schematic diagram of a local explosion structure of a novel anti-drop intelligent animal ear tag in an embodiment of the utility model;
FIG. 2 is a schematic view of another visual angle explosion structure of the novel anti-drop intelligent animal ear tag of FIG. 1;
FIG. 3 is a schematic diagram of an explosion structure of a novel anti-drop intelligent animal ear tag according to an embodiment of the present utility model;
FIG. 4 is a schematic cross-sectional view of a novel anti-drop smart animal ear tag according to an embodiment of the present utility model;
FIG. 5 is a schematic diagram of a three-dimensional structure of a novel anti-drop smart animal ear tag according to an embodiment of the present utility model;
FIG. 6 is a schematic perspective view of a housing according to an embodiment of the present utility model;
FIG. 7 is a schematic perspective view of a housing according to another embodiment of the present utility model;
FIG. 8 is a schematic diagram of a control detecting element according to an embodiment of the present utility model.
Reference numerals illustrate: 10. female tag, 20, positioning ear pin, 30, auxiliary ear pin, 40, male tag, 41, receiving case, 411, main body case, 4111, positioning pin hole, 4112, magnetic groove, 412, spacer, 413, spacing, 414, spacing post, 415, auxiliary pin hole, 42, end cap, 421, magnetic bin, 50, magnetic button, 60, spring thimble, 70, control detecting element, 71, processor, 72, temperature sensor, 73, motion sensor, 74, communication unit, 75, electronic tag, 80, pressure sensor, 90.
Detailed Description
The utility model will be described in further detail below with reference to the drawings by means of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present utility model. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, related operations of the present utility model have not been shown or described in the specification in order to avoid obscuring the core portions of the present utility model, and may be unnecessary to persons skilled in the art from a detailed description of the related operations, which may be presented in the description and general knowledge of one skilled in the art.
Furthermore, the described features, operations, or characteristics of the description may be combined in any suitable manner in various embodiments. Also, various steps or acts in the method descriptions may be interchanged or modified in a manner apparent to those of ordinary skill in the art. Thus, the various orders in the description and drawings are for clarity of description of only certain embodiments, and are not meant to be required orders unless otherwise indicated.
The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The term "coupled" as used herein includes both direct and indirect coupling (coupling), unless otherwise indicated.
As shown in fig. 1-8, in one embodiment, a novel anti-slip smart animal ear tag includes: male label 40, female label 10 and magnetic clasp 50. The male tag 40 is provided with a positioning ear pin 20 and at least one auxiliary ear pin 30. The end face of the female label 10 facing the male label 40 is provided with a positioning pinhole 4111 and at least one auxiliary pinhole 415. The magnetic button 50 is disposed inside the female tag 10 and corresponds to the position of the positioning pin hole 4111. The positioning ear pin 20 is fixedly connected with the magnetic button 50 through a positioning pin hole 4111, and the end of the auxiliary ear pin 30 is arranged in the auxiliary pin hole 415 to limit the position of the male mark 40 relative to the female mark 10.
The number of the auxiliary ear pins 30 arranged in the animal ear tag is consistent with the number of the auxiliary needle holes 415, and 1, 2, 3, etc. auxiliary ear pins 30 arranged on the male tag 40 are taken as an example. The positioning pin hole 4111 formed on the female tag 10 is specifically a through hole, so that the positioning ear pin 20 passes through the positioning pin hole 4111 and is fixedly connected with the magnetic buckle 50. The auxiliary needle hole 415 formed on the female tag 10 may be a through hole or a blind hole, so long as the end of the auxiliary ear needle 30 can be accommodated. For example, the female tag 10 is provided with an auxiliary pinhole 415 with a blind hole structure, and when the animal wears the animal ear tag, the auxiliary pinhole 415 can accommodate the auxiliary ear needle 30 with the length of 1/2-1/3, and the auxiliary ear needle is specifically set according to practical situations.
The novel anti-falling intelligent animal ear tag (for short, the animal ear tag) in the embodiment is adopted, and the animal ear tag is conveniently fixed on the livestock ear by matching the magnetic buckle 50 in the positioning ear needle 20 and the female tag 10. Through the cooperation of auxiliary needle hole 415 on auxiliary ear needle 30 and female mark 10, can restrict the radial position of public mark 40 relative female mark 10, effectively prevent public mark 40 and female mark 10 because take place the relative slip and cause physical injury to the livestock ear. In addition, the positioning pin hole 4111 and the auxiliary pin hole 415 are formed in the female tag 10, and since some structural members, such as the magnetic buckle 50, are generally disposed in the female tag 10 of the smart animal ear tag, the space in the female tag 10 is larger, that is, the thickness of the female tag 10 is larger, so that the depth of the pin hole formed in the female tag 10 is also larger. When the depth of seting up supplementary pinhole 415 on female mark 10 can be some more, be convenient for combine the thickness of different livestock ears to accomodate the supplementary auricle 30 of different length, even thicker livestock ears, the tip of accomodating supplementary auricle 30 that supplementary pinhole 415 also can be fine avoids supplementary auricle 30 and supplementary pinhole 415 unable lock's phenomenon to take place, improves the fastness that animal ear mark was worn.
As shown in fig. 2-4, the animal ear tag further includes a spring thimble 60, the spring thimble 60 is disposed at an end face of the female tag 10 facing the male tag 40, the spring thimble 60 is disposed protruding with respect to the end face of the female tag 10, and the spring thimble 60 is used for tightly contacting with the ear of the livestock to trigger the control detecting element 70 in the female tag 10. The spring thimble 60 and the livestock ear closely contact with each other to trigger the detection element 70 in the female tag 10, namely, the physical structure triggering mode can effectively reduce the waste of power supply electric quantity, increase the endurance time of the animal ear tag, reduce the times of the worker to detach the animal ear tag, and save manpower. The spring thimble 60 is arranged to protrude from the end surface of the female tag 10, so as to be convenient for achieving close contact with the ears of livestock. Meanwhile, on the premise of designing the animal ear tag structure, the wearing firmness of the animal ear tag can be effectively guaranteed, and when the wearing firmness of the animal ear tag is improved, the phenomenon that the male tag 40 and the female tag 10 are not easy to loose or slip occurs, so that the working environment or the working effectiveness of the spring thimble 60 can be better guaranteed. Spring pins 60 may specifically be selected from pogo pin spring pins.
As shown in fig. 8, the animal ear tag further comprises a pressure sensor 80, and the control detection element 70 comprises a processor 71, a temperature sensor 72, a motion sensor 73 and a communication unit 74. The pressure sensor 80 is connected with the spring thimble 60, and the pressure sensor 80 is used for triggering the processor 71 or triggering the processor 71, the temperature sensor 72 and the motion sensor 73 according to the pressure signal generated by the spring thimble 60, i.e. the pressure sensor 80 can indirectly trigger the temperature sensor 72 and the motion sensor 73 through triggering the processor 71, or the pressure sensor 80 directly triggers the processor 71, the temperature sensor 72 and the motion sensor 73 respectively. The temperature sensor 72, the motion sensor 73 and the communication unit 74 are all connected to the processor 71. The temperature sensor 72 is configured to collect temperature signs of livestock and send the temperature signs to the processor 71, and the processor 71 is configured to process the temperature signs, for example, perform format conversion or protocol conversion on information corresponding to the temperature signs, and send temperature signals corresponding to the temperature signs through the communication unit 74. The motion sensor 73 is used for acquiring the motion sign of the livestock and generating the motion sign to the processor 71, and the processor 71 is used for processing the motion sign and transmitting a motion signal corresponding to the motion sign through the communication unit 74. The processor 71 is also arranged to receive control signals via the communication unit 74. Wherein the temperature sign, for example the current corresponding body temperature value of the livestock. A sign of movement, such as whether the animal is currently stationary, walking or running, or the number of steps in the animal. Through the innovative combination of the spring thimble 60 and the pressure sensor 80, the problem of activation of the animal ear tag is effectively solved, and through physical extrusion, not only the waste of power supply electric quantity can be reduced and the endurance time of the animal ear tag can be increased, but also the temperature sensor 72 and the motion sensor 73 can be triggered, so that the function of effectively collecting the temperature sign and the motion sign of the livestock by the animal ear tag is realized, and the animal ear tag is more intelligent.
Specifically, the animal ear tag further includes a base station gateway and a cloud server, the communication unit 74 is configured to send a temperature signal or a motion signal to the base station gateway, and the base station gateway further uploads the signal sent by the communication unit 74 to the cloud server. And the base station gateway is further configured to receive a control signal issued by the cloud server, and send the control signal to the communication unit 74. The control signal, for example, a clock signal received by the communication unit 74, and the intelligent ear tag can send the temperature sign and the motion sign of the livestock to the matched base station gateway according to the set time interval, so as to complete data acquisition and forwarding. The detection control element, the base station gateway, the cloud server, and the like are not design points of the present utility model, and will not be described in detail.
More preferably, as shown in fig. 8, the control detecting element 70 further includes an electronic tag 75, where the electronic tag 75 is connected to the processor 71, and the electronic tag 75 is used for storing identity information of the livestock, such as a place of birth, date of birth, type, sex, past disease history, etc. of the livestock. Through the electronic tags 75 of design, not only can let every livestock have intelligent wearing equipment (i.e. animal ear tag), can also combine electronic tags 75, realize the information identification of every livestock, really realize the digital, intelligent management of wisdom livestock-raising trade.
As shown in fig. 3, the female tag 10 includes a housing 41 and an end cap 42, the magnetic buckle 50 is disposed in a space formed by enclosing the housing 41 and the end cap 42, and the housing 41 is provided with a positioning pinhole 4111 and an auxiliary pinhole 415. The relative end cover 42 of containing shell 41 is for the great shell structure of volume, offers location pinhole 4111 and supplementary pinhole 415 on containing shell 41, on the one hand, there is sufficient space for the pinhole of seting up has enough nimble selection, on the other hand, when animal ear tag is worn to the livestock, containing shell 41 is difficult for relative livestock ear to take place to rotate, and then is convenient for guarantee the stability of relative positional relationship between pinhole and the corresponding ear needle on it, effectively alleviates and shifts, animal ear tag pine takes off the problem, the fastness that the reinforcing animal ear tag was worn.
As shown in fig. 3, in particular, a magnetic groove 4112 is disposed in the storage case 41, a magnetic chamber 421 corresponding to the position of the magnetic groove 4112 is disposed on the end cover 42, and a space between the magnetic groove 4112 and the magnetic chamber 421 is used for placing the magnetic buckle 50. Through setting up magnetic force storehouse 421 and magnetic force groove 4112, be convenient for ensure the fastness of magnetic force knot 50 mounted position in female mark 10, and then be convenient for ensure the accurate cooperation between magnetic force knot 50 and the location ear needle 20, and then ensure the fastness that animal ear tag was worn.
As shown in fig. 6, the storage case 41 includes a main body case 411 and a partition plate 412, the end cap 42 and the main body case 411 are detachably connected, the partition plate 412 is disposed on the outer side of the side wall of the main body case 411, a space 413 is formed between the partition plate 412 and the side wall of the main body case 411, at least one limiting post 414 is disposed in the space 413, two sides of the limiting post 414 are respectively connected with the partition plate 412 and the side wall of the main body case 411, and an auxiliary pinhole 415 is formed on the limiting post 414. The number of the limiting posts 414 corresponds to the number of the auxiliary pinholes 415 one by one, the number of the auxiliary pinholes 415 corresponds to the number of the auxiliary earpins 30 one by one, and the number of the positioning pinholes 4111 corresponds to the number of the positioning earpins 20 one by one. Through the spacing space 413 that forms between spacing board 412 and the main part shell 411 lateral wall, set up the spacing post 414 of having seted up supplementary pinhole 415 in this spacing space 413, can effectively alleviate the whole weight of receiver 41 for it is lighter, comfortable when animal ear tag is worn to the livestock. Meanwhile, the auxiliary needle hole 415 is formed in the limiting column 414, so that the axial depth of the auxiliary needle hole 415 can be flexibly selected, the auxiliary needle hole 415 can be effectively matched with the auxiliary ear needle 30, and for example, the phenomenon that the auxiliary needle hole 415 cannot be firmly matched with the auxiliary ear needle 30 due to too small axial depth of the auxiliary needle hole 415 is avoided. If the spacing plate 412 is not provided, the limiting column 414 provided with the auxiliary pin hole 415 is directly provided on the main body housing 411, which inevitably increases the usage amount of the plate material of the main body housing 411, and further increases the weight of the storage housing 41. Preferably, as shown in fig. 7, the axial length of the limiting post 414 may also extend through the entire space, so that the limiting post 414 has a larger axial length, and correspondingly, the auxiliary needle hole 415 also has a larger axial depth, thereby improving the installation firmness of the auxiliary ear needle 30.
Specifically, the partition plate 412 is disposed parallel to the side wall of the main body housing 411, and both ends of the partition plate 412 in the longitudinal direction are fixed to the side wall of the main body housing 411. As shown in fig. 6, taking the storage case 41 with an approximately rectangular or oval shape as an example, when the side wall of the main body case 411 is an arc surface, the partition plate 412 is a corresponding arc plate, and the partition plate 412 and the side wall of the main body case 411 are arranged in parallel, so that the structure of the storage case 41 is more compact. The two ends of the partition plate 412 along the arc-shaped length direction are respectively fixed on the side wall of the main body shell 411, so that the installation firmness of the partition plate 412 can be enhanced, and the installation firmness of the limiting column 414 in the space 413 can be further ensured. The shape of the end cover 42 on the storage shell 41 which is approximately rectangular or elliptical is matched with that of the storage shell 41, and at the moment, when the end cover 42 is detachably fixed on the storage shell 41, the end cover 42 can be effectively prevented from rotating relative to the storage shell 41, and after the end cover 42 is fixed on the storage shell 41, the female label 10 which is approximately rectangular or elliptical is formed. At this time, the female tag 10 can have enough space to place the magnetic button 50, the control detecting element 70, etc., for example, as shown in fig. 4, the magnetic button 50 is mounted inside the upper side of the female tag 10, the positioning pin hole 4111 and the auxiliary pin hole 415 are opened, and the control detecting element 70, the power supply 90, etc. are mounted inside the lower side of the female tag 10.
Preferably, the auxiliary needle hole 415 or the opening of the auxiliary needle hole 415 is provided with a limit ring (not shown) which is used for being tightly matched with the auxiliary ear needle 30. The limiting legend is made of silica gel, namely a silica gel ring. The silica gel ring has certain elasticity, and through the close fit of silica gel ring and the supplementary ear needle 30 of inserting supplementary pinhole 415, can strengthen the frictional force to supplementary ear needle 30 on the supplementary pinhole 415, and then strengthen supplementary ear needle 30 and supplementary pinhole 415 complex fastness, avoid producing the phenomenon emergence that loosens, shift between the two, female mark 10 and public mark 40 complex fastness in the effective guarantee animal ear mark, and then guarantee spring thimble 60 and pressure sensor 80's effective trigger. In the embodiment of the utility model, the limit ring can be arranged at the orifice of the auxiliary pinhole 415 so as to be convenient for installing and fixing the limit ring, and simultaneously, the requirement on the space in the auxiliary pinhole 415 can be reduced.
Specifically, as shown in fig. 1-3, the male label 40 is provided with a positioning ear pin 20 and two auxiliary ear pins 30, and the positioning ear pin 20 and the two auxiliary ear pins 30 are distributed on one end surface of the male label 40 facing the female label 10 in a regular triangle shape. The female tag 10 is provided with a positioning needle hole 4111 and two auxiliary needle holes 415, the position of the positioning needle hole 4111 is correspondingly arranged with the position of the positioning ear needle 20, and the position of the auxiliary needle hole 415 is correspondingly arranged with the position of the auxiliary ear needle 30. The positioning ear needle 20 and the auxiliary ear needle 30 may be made of the same material, for example, stainless steel materials, and the positioning ear needle 20 and the auxiliary ear needle 30 are perpendicular to the end face of the male mark 40, and the three ear needles may have the same height, so that the processing is convenient.
When the animal ear tag is used, the relative distance between the male tag 40 and the female tag 10 is fixed by matching the magnetic buckle 50 with the positioning ear needle 20, so that the female tag 10 and the male tag 40 are prevented from being separated. The two auxiliary ear needles 30 and the two auxiliary needle holes 415 are in one-to-one correspondence, the radial positions of the female tag 10 and the male tag 40 are limited, the animal ear tags are prevented from being displaced and slipped by other external forces, physical damage to the ears of livestock is avoided, or the ear tags are prevented from falling, and the wearing firmness of the animal ear tags is effectively guaranteed. The length of the ear needle (the positioning ear needle 20 and the auxiliary ear needle 30) arranged on the outer side of the male mark 40 is about 14mm, the corresponding depth of the auxiliary needle hole 415 is about 8mm, thus livestock ears with the thickness of 3-7mm can be matched between the female mark 10 and the male mark 40 at will, and the fastening connection of the female mark 10 and the male mark 40 can be realized.
The application method of the animal ear tag designed by the utility model comprises the following steps: the positioning ear needle 20 passes through the livestock ear, the positioning needle hole 4111 and the magnetic buckle 50 to be fixedly connected, and meanwhile, the end part of the auxiliary ear needle 30 passes through the livestock ear to be fixed in the auxiliary needle hole 415, so that the closing flow of the female label 10 and the male label 40 is formed. When the capping process is completed, the livestock ears are in close contact with the spring pins 60 protruding from the end surface of the female tag 10, so that the pressure sensor 80 triggers the processor 71 or triggers the processor 71, the temperature sensor 72 and the motion sensor 73 according to the pressure signal generated by the spring pins 60. After the triggering action of the pressure sensor 80, the processor 71 (e.g., MCU) is started to start running, the temperature sensor 72 is started to start acquiring the temperature signs of the livestock, the motion sensor 73 is started to start acquiring the temperature signs of the livestock, and the animal ear tag starts to perform data processing, acquisition and forwarding. When the female tag 10 and the male tag 40 are separated, the spring thimble 60 automatically jacks up, that is, the deformation caused by extrusion is recovered, and the pressure sensor 80 triggers a disconnection signal at this time, so that the animal ear tag stops working. When the animal ear tag is removed, as shown in fig. 4, the female tag 10 and the male tag 40 are pulled apart in the opposite direction of the female tag 10 by using the conventional custom-made removing tool.
The animal ear tag designed by the utility model is an intelligent ear tag which can prevent the wearing ear tag from falling off and has the functions of temperature measurement, step counting in sports, automatic uploading of data at regular time and the like. The pinhole is arranged on the relatively thick female tag 10, the depth of the hole site can be designed to be relatively larger, so that the insertion length of the ear needle is not limited, the ear needle can adapt to ears with different thicknesses, the positions between the pinhole and the ear needle are relatively fixed, the phenomena of shifting and slipping are not easy to occur, the wearing firmness of the animal ear tag can be improved, and the physical injury to the livestock ear can be reduced. Because of the relatively tight fastening mode adopted between the female tag 10 and the male tag 40, the stress is also more uniform and tight, so that the spring thimble 60 can accurately transmit pressure signals to the pressure sensor 80, thereby being convenient for accurately triggering and starting the animal ear tag, and simultaneously being convenient for the contact between the temperature sensor 72 and the fur of the livestock ear, so as to accurately acquire the ear temperature. The physical triggering mode of combining the spring thimble 60 with the pressure sensor 80 can save the power supply quantity of the animal ear tag, prolong the endurance time of the animal ear tag, improve the triggering accuracy and reduce the external interference. For example, if a magnetic induction triggering mode is adopted, if the ears of livestock are thicker, the signals possibly induced are weaker, so that the animal ear tag cannot be effectively triggered.
The foregoing description of the utility model has been presented for purposes of illustration and description, and is not intended to be limiting. Several simple deductions, modifications or substitutions may also be made by a person skilled in the art to which the utility model pertains, based on the idea of the utility model.
Claims (10)
1. Novel anticreep intelligence animal ear tag, its characterized in that includes:
the male tag is provided with a positioning ear pin and at least one auxiliary ear pin;
a female mark, wherein one end surface of the female mark facing the male mark is provided with a positioning pinhole and at least one auxiliary pinhole; and
the magnetic buckle is arranged in the female mark and corresponds to the position of the positioning pinhole;
the positioning ear needle is used for penetrating through the positioning needle hole and fixedly connected with the magnetic buckle, and the end part of the auxiliary ear needle is used for being placed in the auxiliary needle hole so as to limit the position of the male mark relative to the female mark.
2. The novel anti-drop intelligent animal ear tag of claim 1, further comprising a spring thimble disposed on an end surface of the female tag facing the male tag, the spring thimble protruding from the end surface of the female tag, the spring thimble being configured to be in close contact with the livestock ear to trigger the control detection element in the female tag.
3. The novel anti-drop smart animal ear tag of claim 2, further comprising a pressure sensor, the control detection element comprising a processor, a temperature sensor, a motion sensor, and a communication unit; the pressure sensor is connected with the spring thimble and is used for triggering the processor or triggering the processor, the temperature sensor and the motion sensor according to a pressure signal generated by the spring thimble; the temperature sensor, the motion sensor and the communication unit are all connected with the processor; the temperature sensor is used for collecting temperature signs of livestock and sending the temperature signs to the processor, and the processor is used for processing the temperature signs and sending temperature signals through the communication unit; the motion sensor is used for collecting motion signs of livestock and generating the motion signs to the processor, and the processor is used for processing the motion signs and sending motion signals through the communication unit; the processor is also configured to receive a control signal via the communication unit.
4. The novel anti-slip intelligent animal ear tag of claim 3, wherein the control detection element further comprises an electronic tag, wherein the electronic tag is connected to the processor, and wherein the electronic tag is configured to store identity information of livestock.
5. The novel anti-drop intelligent animal ear tag of claim 1, wherein the female tag comprises a storage shell and an end cover, the magnetic buckle is arranged in a space formed by the storage shell and the end cover in a surrounding manner, and the storage shell is provided with the positioning pinhole and the auxiliary pinhole.
6. The novel anti-drop intelligent animal ear tag of claim 5, wherein the housing comprises a main body shell and a spacing plate, the end cover is detachably connected with the main body shell, the spacing plate is arranged on the outer side of the side wall of the main body shell, a spacing space is formed between the spacing plate and the side wall of the main body shell, at least one spacing column is arranged in the spacing space, two sides of the spacing column are respectively connected with the spacing plate and the side wall of the main body shell, and the auxiliary pinholes are formed on the spacing column.
7. The novel anti-drop intelligent animal ear tag according to claim 6, wherein the spacer is disposed parallel to the side wall of the main body case, and two ends of the spacer along the length direction are respectively fixed to the side wall of the main body case.
8. The novel anti-drop intelligent animal ear tag according to claim 5, wherein a magnetic groove is arranged in the storage shell, a magnetic bin corresponding to the magnetic groove is arranged on the end cover, and a space between the magnetic groove and the magnetic bin is used for placing the magnetic buckle.
9. The novel anti-drop intelligent animal ear tag of claim 1, wherein the auxiliary needle hole or the orifice of the auxiliary needle hole is arranged at a limit ring, and the limit ring is used for being tightly matched with the auxiliary ear needle.
10. The novel anti-drop intelligent animal ear tag according to claim 1, wherein the male tag is provided with one positioning ear needle and two auxiliary ear needles, and one positioning ear needle and two auxiliary ear needles are distributed on one end face of the male tag facing the female tag in a regular triangle; the female mark is provided with one positioning needle hole and two auxiliary needle holes, the positions of the positioning needle holes and the positions of the positioning ear needles are correspondingly arranged, and the positions of the auxiliary needle holes and the positions of the auxiliary ear needles are correspondingly arranged.
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CN202321609259.7U CN220068537U (en) | 2023-06-21 | 2023-06-21 | Novel anticreep intelligence animal ear tag |
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CN202321609259.7U CN220068537U (en) | 2023-06-21 | 2023-06-21 | Novel anticreep intelligence animal ear tag |
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CN202321609259.7U Active CN220068537U (en) | 2023-06-21 | 2023-06-21 | Novel anticreep intelligence animal ear tag |
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