CN210746676U - Implantable animal motion monitoring equipment and system - Google Patents

Abstract

The utility model provides an implantable animal motion monitoring facilities, include: a protective housing; an RFID processing chip; the MEMS acceleration sensor is connected with the RFID processing chip; and the energy receiving and transmitting module is connected with the RFID processing chip and the MEMS acceleration sensor and is used for receiving an electromagnetic field of the RFID reading and writing equipment and supplying power to the RFID processing chip and the MEMS acceleration sensor through the rectification voltage regulating circuit. The implantable animal motion monitoring device has the advantages that the implantable structure is utilized to acquire the acceleration of the animal through the acceleration sensor, the motion state of the animal can be continuously monitored on line, the monitoring mode that the breeding personnel carry out subjective judgment is avoided, the monitoring efficiency is improved, the implantable animal motion monitoring device can record the motion condition digitally and accurately, and the user experience is improved. The application also provides an implantable animal motion monitoring system, which has the beneficial effects.

Description

Implantable animal motion monitoring equipment and system

Technical Field

The application relates to the technical field of animal monitoring, in particular to implantable animal motion monitoring equipment and system.

Background

The livestock behaviors are the external manifestations of the psychological and physiological health conditions of the livestock. The livestock behavior monitoring and analysis is beneficial to establishing a behavior model and discovering behavior abnormity, and the economic loss is reduced. In the modern breeding process, the current physiological state condition of the animal can be judged according to the movement condition of the animal. Generally, livestock behaviors are monitored by means of manual observation of breeding personnel, but the method is strong in subjectivity, low in precision, incapable of continuously monitoring and recording movement for 24 hours and low in monitoring efficiency.

Therefore, how to provide a solution to the above technical problem is a problem that needs to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The application aims to provide implantable animal motion monitoring equipment and system, which can acquire real-time motion conditions of animals, improve monitoring efficiency and improve user experience. The specific scheme is as follows:

the present application provides an implantable animal motion monitoring device comprising:

a protective housing;

an RFID processing chip;

the MEMS acceleration sensor is connected with the RFID processing chip;

and the energy receiving and transmitting module is connected with the RFID processing chip and the MEMS acceleration sensor and is used for receiving an electromagnetic field of the RFID reading and writing equipment and supplying power to the RFID processing chip and the MEMS acceleration sensor through the rectification voltage regulating circuit.

Optionally, the protective housing includes:

a top housing;

the middle shell is arranged at the lower part of the top shell, and the middle shell is a sealed shell provided with the RFID processing chip, the MEMS acceleration sensor and the energy transceiving module;

a bottom housing disposed at a lower portion of the middle housing;

wherein the top shell and the bottom shell are both biodegradable shells.

Optionally, the top casing and the bottom casing are both one of a biodegradable ceramic casing and a biodegradable plastic casing.

Optionally, the middle housing is a glass housing.

Optionally, the middle housing is a housing having a length of 4-6 mm.

Optionally, the protective shell is a rice-shaped cylindrical shell with a length of 4-10mm and a radius of 1.5-4 mm.

Optionally, the method further includes: a temperature sensor.

Optionally, the method further includes: a pulse acceleration sensor.

The present application provides an implantable animal motion monitoring system comprising:

the implantable animal motion monitoring system comprises a server, the implantable animal motion monitoring equipment and RFID read-write equipment connected with the server and the implantable animal motion monitoring equipment.

Optionally, the number of implantable animal motion monitoring devices is at least 1.

The present application provides an implantable animal motion monitoring device comprising: a protective housing; an RFID processing chip; the MEMS acceleration sensor is connected with the RFID processing chip; and the energy receiving and transmitting module is connected with the RFID processing chip and the MEMS acceleration sensor and is used for receiving an electromagnetic field of the RFID reading and writing equipment and supplying power to the RFID processing chip and the MEMS acceleration sensor through the rectification voltage regulating circuit.

Therefore, the implantable device has the advantages that the implantable structure is used for acquiring the acceleration of the animal through the acceleration sensor, the motion state of the animal can be continuously monitored on line, the implantable device is low in foreign body sensation, is generally suitable for small animals to large animals, and can monitor the physiological state of the animal such as oestrus and gestation period in real time; implantable equipment need not the power supply and be difficult for droing, can cover the full cycle that the animal was raised, has avoided utilizing the monitoring mode that breeders carried out subjective judgement among the correlation technique, has improved monitoring efficiency to the accurate record motion condition that implantable animal motion monitoring equipment that provides can be digital improves user experience. The application also provides an implantable animal motion monitoring system, which has the beneficial effects and is not repeated herein.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an implantable animal motion monitoring apparatus according to an embodiment of the present application;

FIG. 2 is a schematic structural diagram of another implantable animal motion monitoring apparatus provided in accordance with an embodiment of the present application;

fig. 3 is a schematic structural diagram of another implantable animal motion monitoring apparatus according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Based on the technical problems, the embodiment provides implantable animal motion monitoring equipment, the implantable structure is utilized to acquire the acceleration of an animal through an acceleration sensor, the motion state of the animal can be continuously monitored on line, the implantable equipment has low foreign body sensation, is generally suitable for small animals to large animals, and can monitor the physiological states of the animal such as oestrus and gestation period in real time; implantable equipment need not the power supply and be difficult for droing, can cover the full cycle that the animal was raised, has avoided utilizing breeders to carry out subjective judgement's monitoring mode among the correlation technique, has improved monitoring efficiency to the implantable animal motion monitoring equipment that provides can digital accurate record motion circumstances, improves user experience, specifically please refer to fig. 1, fig. 1 is the flow chart of an implantable animal motion monitoring equipment that this application embodiment provided, specifically includes:

a protective housing 110; an RFID processing chip 120; a MEMS acceleration sensor 130 connected to the RFID processing chip 120; the energy transceiving module 140 is connected with the RFID processing chip 120 and the MEMS acceleration sensor 130, and the energy transceiving module 140 is configured to receive an electromagnetic field of the RFID reading/writing device and supply power to the RFID processing chip 120 and the MEMS acceleration sensor 130 through a rectification voltage regulation circuit.

The specific shape of the protective casing 110 is not limited in this embodiment, and the user can set the device according to actual needs, and it should be noted that the implantable animal motion monitoring device is a device that is implanted into the subcutaneous part of an animal at one time, and therefore, conventionally, the implantable animal motion monitoring device is injected into a preset subcutaneous position of the animal by using a syringe, and therefore, the shape of the protective casing 110 needs to be capable of successfully injecting into the subcutaneous part of the animal, and therefore, the general shape of the protective casing 110 is a rice-grain cylinder, or a sphere, and needs to have no edges and corners so as to be capable of completing injection. The size of the protective case 110 is not limited in this embodiment, and the RFID processing chip 120, the MEMS acceleration sensor 130, and the energy transmission/reception module 140 may be packaged therein. The protective casing 110 is typically a plastic casing or a glass casing, and it is noted that since it is implanted under the skin of an animal, its inert sign does not react with the subcutaneous components, and certainly needs to be harmless and have a certain strength to ensure proper data collection. The protective housing 110 has a length of 4-10mm and a radius of 1.5-4 mm. Whether the length is more than 10mm or the radius is more than 4mm, the size of the implantable animal motion monitoring device is too large, and therefore, the implantable animal motion monitoring device only has the problems of subcutaneous difficulty and strong physical foreign body feeling experience of animals; when the length is less than 4mm or the radius is less than 1.5mm, the packaging technology is difficult, the mobility under the animal skin is high, and the problem of low signal reading strength is easily caused.

The RFID processing chip 120 is configured to receive the acceleration of the MEMS acceleration sensor 130, store the acceleration, and then send the acceleration to the RFID read-write device. The RFID processing chip 120 includes a rectifying regulator circuit. The RFID processing chip 120 is not limited in this embodiment, and the user may purchase according to actual needs, and the RFID processing chip may be an heien H2\ H3 chip, an Impinj M4\ M4QT chip, or an NXP G2XM \ G2XL chip, as long as the purpose of the embodiment is achieved.

The MEMS acceleration sensor 130 is used to acquire the acceleration of the animal. The present embodiment does not limit the type of the MEMS acceleration sensor 130, and the user can set the type according to actual requirements. The MEMS triaxial acceleration sensor MMA7260 has the characteristics of low power consumption, high sensitivity, short response time, strong shock resistance and the like; it is also possible that ADXL362 and ADXL363 have low power consumption, small size, integrated features aimed at enhancing energy saving performance, and availability.

The energy transceiving module 140 may be an ultra-high frequency antenna, and is configured to receive an electromagnetic field of the RFID reader, and supply power to the RFID processing chip 120 and the MEMS acceleration sensor 130 through the rectification voltage regulation circuit. The energy transceiver module 140 may be a fixed or mobile high power uhf RFID directional antenna.

Based on the technical scheme, the implantable structure is used for acquiring the acceleration of the animal through the acceleration sensor, the motion state of the animal can be continuously monitored on line, the implantable device is low in foreign body sensation, is generally suitable for small animals to large animals, and can monitor the physiological state of the animal such as oestrus and gestation in real time; implantable equipment need not the power supply and be difficult for droing, can cover the full cycle that the animal was raised, has avoided utilizing the monitoring mode that breeders carried out subjective judgement among the correlation technique, has improved monitoring efficiency to the accurate record motion condition that implantable animal motion monitoring equipment that provides can be digital improves user experience.

Based on the above embodiments, to ensure that the implantable animal motion monitoring device is implanted subcutaneously in an animal, movement and dislocation of the implantable animal motion monitoring device are avoided, please refer to fig. 2 and 3 specifically, fig. 2 is a structure of another implantable animal motion monitoring device provided in this embodiment; fig. 3 illustrates another structure of an implantable animal motion monitoring device according to this embodiment, wherein the protective housing 110 includes:

the protective case 110 includes: a top case 111; an intermediate housing 112 disposed at a lower portion of the top housing 111, wherein the intermediate housing 112 is a sealed housing provided with an RFID processing chip 120, an MEMS acceleration sensor 130, and an energy transceiver module 140; a bottom case 113 disposed at a lower portion of the middle case 112; wherein, the top shell 111 and the bottom shell 113 are both biodegradable shells.

The specific positions of the top shell 111 and the bottom shell 113 are not limited in this embodiment, as long as regular edges can be formed after the top shell 111 and the bottom shell 113 are degraded, and the implantable animal motion monitoring device can be fixed to prevent moving dislocation in an animal body. The longitudinal length of the middle housing 112 is 4-6mm to ensure that the RFID processing chip 120, the MEMS acceleration sensor 130 and the energy transceiver module 140 can be packaged. The top housing 111 and the bottom housing 113 may be substantially symmetrical structures, or the top housing 111 may have a large volume, or the bottom housing 113 may have a large volume, as long as it is ensured that the implantable animal motion monitoring device does not move and dislocate under the skin of the animal after degradation. The intermediate housing 112 may be a plastic or glass shell, and it is noted that since it is implanted under the skin of the animal, its inert sign does not react with the subcutaneous components, and of course needs to be harmless and of a certain strength to ensure proper data acquisition.

Further, the top case 111 and the bottom case 113 are both one of a biodegradable ceramic case and a biodegradable plastic case. Such as tricalcium P-phosphate, polypeptide, polyamino acid, polyester, polylactic acid, chitin, collagen/gelatin and other high molecular materials. When the implantable animal motion monitoring device is implanted into the subcutaneous part of an animal, the top shell 111 and the bottom shell 113 are degraded and ablated in a short time, and the middle shell 112 is stored, so that the end part of the implantable animal motion monitoring device is passivated, the implantable animal motion monitoring device can be effectively prevented from moving and dislocating in the animal, and adverse factors such as reduction of the strength of a reading signal are avoided.

Further, the middle housing 113 is a glass housing. The middle housing 113 is a glass housing that is simple to manufacture and facilitates inspection of the acceptability of the package.

Based on the above technical solution, in the embodiment, by configuring the protective housing 110 to include the biodegradable top shell 111 and the biodegradable bottom shell 113, when the implantable animal motion monitoring device is implanted subcutaneously in an animal, the implantable animal motion monitoring device is prevented from moving and being dislocated.

Further, the method also comprises the following steps: a temperature sensor. The animal body temperature monitoring system is used for monitoring the temperature condition of an animal so as to monitor the body temperature of the animal in real time and know the physiological state of the animal in time according to the body temperature and the real-time motion condition of the animal.

Further, the method also comprises the following steps: a pulse acceleration sensor. The animal health monitoring system is used for monitoring the physical condition of animals so as to monitor the health of the animals in real time and know the physiological and health states of the animals in time according to the health and real-time motion conditions of the animals.

The following describes an implantable animal motion monitoring device provided in an embodiment of the present application, and the implantable animal motion monitoring device described below and the implantable animal motion monitoring device described above may be referred to in correspondence.

The present embodiments provide an implantable animal motion monitoring system, comprising:

the system comprises a server, the implantable animal motion monitoring equipment and the RFID read-write equipment connected with the server and the implantable animal motion monitoring equipment.

The embodiment does not limit the server, and can be a server based on the electronic device or a cloud server, and the user can set the server according to actual requirements.

The RFID reader may be an ultra high frequency RFID reader, and may include: RFID radio frequency chip and radio frequency antenna. Wherein the radio frequency antenna is a high power directional antenna. The RFID read-write equipment can be an R500\ R1000\ R2000 chip of Impinj, an Aureo AS3992 chip, a WJC200 chip of TriQuint or a PR9000 chip of Phychips, and a user can select according to actual requirements.

Further, the number of implantable animal motion monitoring devices is at least 1.

The user can implant a plurality of implantable animal motion monitoring devices under the skin of different positions of the animal according to actual needs, such as under the ear of the animal, on the back of the animal, and on the hip of the animal, but of course, other positions are also possible. RFID read-write equipment acquires a plurality of accelerations, then carries out data processing and decoding to it, then passes into data transmission server through internet access module, when carrying out data processing, can obtain the gesture of current animal according to a plurality of accelerations, if run, lie prone etc..

Since the embodiment of the implantable animal motion monitoring system corresponds to the embodiment of the implantable animal motion monitoring system, please refer to the description of the embodiment of the implantable animal motion monitoring system, which is not repeated herein.

The embodiments are described in a progressive manner in the specification, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the system disclosed by the embodiment, the description is relatively simple because the system corresponds to the method disclosed by the embodiment, and the relevant points can be referred to the method part for description. It should be noted that, for those skilled in the art, it is possible to make several improvements and modifications to the present application without departing from the principle of the present application, and such improvements and modifications also fall within the scope of the claims of the present application.

It is further noted that, in the present specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Claims (10)

1. An implantable animal motion monitoring device, comprising:

a protective housing;

an RFID processing chip;

the MEMS acceleration sensor is connected with the RFID processing chip;

and the energy receiving and transmitting module is connected with the RFID processing chip and the MEMS acceleration sensor and is used for receiving an electromagnetic field of the RFID reading and writing equipment and supplying power to the RFID processing chip and the MEMS acceleration sensor through the rectification voltage regulating circuit.

2. The implantable animal motion monitoring device according to claim 1, wherein the protective housing comprises:

a top housing;

the middle shell is arranged at the lower part of the top shell, and the middle shell is a sealed shell provided with the RFID processing chip, the MEMS acceleration sensor and the energy transceiving module;

a bottom housing disposed at a lower portion of the middle housing;

wherein the top shell and the bottom shell are both biodegradable shells.

3. The implantable animal motion monitoring device according to claim 2, wherein the top housing and the bottom housing are each one of a biodegradable ceramic housing, a biodegradable plastic housing.

4. The implantable animal motion monitoring device according to claim 2, wherein the middle housing is a glass housing.

5. The implantable animal motion monitoring device according to claim 2, wherein the middle housing is a housing having a length of 4-6 mm.

6. The implantable animal motion monitoring device according to claim 1, wherein the protective housing is a rice-grain cylindrical housing having a length of 4-10mm and a radius of 1.5-4 mm.

7. The implantable animal motion monitoring device according to claim 1, further comprising: a temperature sensor.

8. The implantable animal motion monitoring device according to claim 1, further comprising: a pulse acceleration sensor.

9. An implantable animal motion monitoring system, comprising:

a server, an implantable animal motion monitoring device according to any one of claims 1 to 8, an RFID reader connected to the server and the implantable animal motion monitoring device.

10. The implantable animal motion monitoring system according to claim 9, wherein the number of implantable animal motion monitoring devices is at least 1.

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