CN115250951A

CN115250951A - Pet health monitoring device

Info

Publication number: CN115250951A
Application number: CN202210988367.3A
Authority: CN
Inventors: 卫思源; 王子瑞; 赵刚; 陈松; 郑洋
Original assignee: University of Science and Technology of China USTC
Current assignee: University of Science and Technology of China USTC
Priority date: 2022-08-17
Filing date: 2022-08-17
Publication date: 2022-11-01

Abstract

The embodiment of the application provides a pet health monitoring device. The sensor module disclosed by the invention is in contact with the body surface of a pet; the signal processing module is connected with the sensor module and is used for converting the physiological parameters of the pet collected by the sensor module into digital signals; the microprocessor is connected with the signal processing module and is used for comparing the physiological parameters of the pet uploaded by the signal processing module with the data stored in the microprocessor to generate a comparison result; the power supply module is respectively and electrically connected with the sensor module, the microprocessor and the signal processing module; and the communication module is connected with the microprocessor. From this, realized that power module supplies power for whole device system, multiple sensor acquires pet actual health status to set up through communication module and transmit information, so that follow-up inquiry and storage, each module of whole device cooperates the accurate health status who reflects the pet, realizes the detection of noninvasive pet blood oxygen saturation.

Description

Pet health monitoring device

Technical Field

The application relates to the technical field of health management systems, in particular to a pet health monitoring device.

Background

With the development of social economy and the acceleration of urbanization process, the leisure, consumption and emotional consignment modes of residents are also in diversified development. People are more and more fond of pets, pet feeding becomes a new bright spot for urban residents to consume, and the pet industry becomes a component of market economy, so people pay more and more attention to the health condition of pets. At present, people can only judge the health condition of pets from features except the mental state of the pets, and the health condition of the pets cannot be known from physiological data of the pets. When pets are sick, because of lack of safety sense, the pets can inherently avoid hiding discomfort, the behavior makes diagnosis and treatment of pet diseases more difficult, and a plurality of characteristics of pet diseases in the early stage are difficult to be found by people, so that the pets are greatly stimulated and painful, and the later-stage expensive diagnosis and treatment cost is high.

At present, the body temperature of present most of pet health monitoring devices to the pet need the manual work to inspect when detecting, have in the further current detection method to adopt some multi-functional pet health detection device, the platform is placed to the pet and multi-functional pet health detection device is the integral type, inconvenient clearance, and when detecting the pet, restriction pet that can not be fine is indiscriminate to move, also can not move the pet of different sizes and fix, inconvenient detect the pet, it is very hard to waste time, we propose a pet health monitoring device for this.

Disclosure of Invention

In view of this, the embodiment of the application provides a pet health monitoring device, aims at realizing timely detection and early warning of pet health conditions, can effectively solve the problem that detecting pet health conditions wastes time and energy, and further improves the efficiency of detecting health conditions.

The invention provides a pet health monitoring device, which is characterized in that: the pet health management system comprises a collar body, pet health management equipment arranged on the collar body and a server for storing data information uploaded by the pet health management equipment; the pet health management device comprises a pet health management device,

the sensor module is in contact with the body surface of the pet and is used for acquiring physiological parameters of the pet;

the signal processing module is connected with the sensor module and is used for converting the physiological parameters of the pet collected by the sensor module into digital signals;

the microprocessor is connected with the signal processing module, compares the physiological parameters of the pet uploaded by the signal processing module with the data stored in the signal processing module to generate a comparison result, and wirelessly sends the acquired physiological parameters of the pet and the comparison result to the server; the power supply module is respectively and electrically connected with the sensor module, the microprocessor and the signal processing module;

and the communication module is connected with the microprocessor and is used for communicating the microprocessor and the server.

Preferably, the sensor module at least comprises a temperature measuring module, a positioning module and a near-infrared broad-spectrum module, the near-infrared broad-spectrum module is used for collecting the blood oxygen saturation in the pet body, and the positioning module is used for positioning the position of the pet in real time and sending the positioned geographic information to the microprocessor.

Preferably, the system also comprises a mobile terminal which is in communication with the microprocessor through wireless, and the microprocessor can send the acquired physiological parameters of the pet, the comparison result generated by the microprocessor and the position information acquired by the positioning module to the mobile terminal through the communication module.

Preferably, the positioning module adopts an ATGM336H module and supports two modes of GPS and Beidou.

Preferably, the inner surface of the health management equipment is provided with a temperature measurement module detection port and a near-infrared broad-spectrum module detection port.

Preferably, the system also comprises a storage module; the storage module is in communication connection with the pet health platform and is used for storing pet monitoring information and generating a pet monitoring record in the database.

Preferably, the outer surface of the health management equipment is provided with a power management key and a signal indicator light, the power management key is connected with the power module and used for selecting the working mode of the system, and the signal indicator light is used for displaying that the working condition of the current state is normal or the health condition of the pet is abnormal.

Preferably, insulating materials are adopted around the detection port of the temperature measurement module, the detection port of the near-infrared broad-spectrum module and the signal indicator light.

Preferably, the microprocessor is an esp32 with a WIFI module and a bluetooth module.

Preferably, the power module adopts a micro lithium battery for providing stable voltage.

The embodiment of the application provides a pet health monitoring device. The sensor module is in contact with the body surface of the pet and is used for acquiring physiological parameters of the pet; the signal processing module is connected with the sensor module and is used for converting the physiological parameters of the pet collected by the sensor module into digital signals; the microprocessor is connected with the signal processing module, compares the physiological parameters of the pet uploaded by the signal processing module with the data stored in the signal processing module to generate a comparison result, and wirelessly sends the acquired physiological parameters of the pet and the comparison result to the server; the power supply module is respectively and electrically connected with the sensor module, the microprocessor and the signal processing module; and the communication module is connected with the microprocessor and is used for communicating the microprocessor and the server. Aiming at the application scene of health detection of the pet, the near infrared spectrum is adopted to monitor the blood oxygen saturation in the body of the pet, the infrared sensor measures the body surface temperature of the pet, the positioning module determines the position of the pet, and the various sensors work cooperatively to accurately reflect the health state of the pet. From this, realized that power module supplies power for whole device system, multiple sensor acquires pet actual health status to set up through communication module and transmit information, so that follow-up inquiry and storage, each module of whole device cooperates the accurate health status who reflects the pet, realizes the detection of noninvasive pet blood oxygen saturation. Compared with the prior art that many blood tests are checked in a pet hospital, the time for going to the pet hospital is greatly reduced. Can play a good role in preventing and treating diseases of some pets in advance. The pet health condition detection device can reflect health indexes in partial animal bodies efficiently in real time, and is time-saving, labor-saving and high in accuracy.

Drawings

To illustrate the technical solutions in the present embodiment or the prior art more clearly, the drawings needed to be used in the description of the embodiment or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a block diagram of a pet health monitoring device according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram (front view) of the appearance of a pet health monitoring device according to the present invention;

FIG. 3 is a schematic structural diagram (side view) of the appearance of a pet health monitoring device according to the present invention;

fig. 4 is a schematic view of a working process of the pet health monitoring device according to the present invention.

Detailed Description

In order to make the technical solutions of the present application better understood, 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 only a part of the embodiments of the present application, and not all of the 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.

As previously mentioned, many blood tests are now being examined at pet hospitals. However, the inventor finds that the ATGM336H has an excellent positioning navigation function, has high sensitivity, supports single-system positioning of a BDS/GPS/GLONASS satellite navigation system and multi-system combined positioning of any combination, calculates the temperature of an object by measuring infrared light by radiating infrared light outwards from the object through non-contact infrared temperature measurement, and has the characteristics of high temperature resolution, high response rate, good stability and the like; near infrared spectroscopy has evolved rapidly in recent years as a non-invasive monitoring modality. Compared with fMRI and PET, the near infrared spectrum technology has strong advantages in portability, easy use, price and the like; the ESP32 is specially designed for application of mobile equipment, wearable electronic products and the like, has high-level low-power-consumption performance, can be used as a microprocessor to realize comprehensive regulation and control effect among the modules of a system, the functions of the modules are developed completely nowadays, and the inventor also finds that the defects of the traditional method for detecting the pet are insufficient, the detection mode is often visual inspection by a pet owner, sometimes, the health problem of the pet is found to be not timely enough, the health condition of the pet is further worsened, and the monitoring mode of taking the pet to go to a hospital frequently for inspection is often time-consuming and labor-consuming and low in efficiency.

In order to solve the problem, the embodiment of the application provides a pet health monitoring device. The sensor module is in contact with the body surface of the pet and is used for acquiring physiological parameters of the pet; the signal processing module is connected with the sensor module and is used for converting the physiological parameters of the pet collected by the sensor module into digital signals; the microprocessor is connected with the signal processing module, compares the physiological parameters of the pet uploaded by the signal processing module with the data stored in the signal processing module to generate a comparison result, and wirelessly sends the acquired physiological parameters of the pet and the comparison result to the server; the power supply module is respectively and electrically connected with the sensor module, the microprocessor and the signal processing module; and the communication module is connected with the microprocessor and is used for communicating the microprocessor and the server. Aiming at the application scene of health detection of the pet, the near infrared spectrum is adopted to monitor the blood oxygen saturation in the body of the pet, the infrared sensor measures the body surface temperature of the pet, the positioning module determines the position of the pet, and the various sensors work cooperatively to accurately reflect the health state of the pet. From this, realized that power module supplies power for whole device system, multiple sensor acquires pet actual health status to set up through communication module and transmit information, so that follow-up inquiry and storage, each module of whole device cooperates the accurate health status who reflects the pet, realizes the detection of noninvasive pet blood oxygen saturation. Compared with the prior art that many blood tests are checked in a pet hospital, the time for going to the pet hospital is greatly reduced. Can play a good role in preventing and treating diseases of some pets in advance. The pet health condition detection device can reflect health indexes in partial animal bodies efficiently in real time, and is time-saving, labor-saving and high in accuracy.

The following describes the pet health monitoring device provided by the present application, by way of an example. Referring to fig. 1, fig. 1 is a structural diagram of a pet health monitoring device according to an embodiment of the present application, including:

the invention discloses a pet health monitoring device, which comprises a pet health management device,

the sensor module 11 is in contact with the body surface of the pet and is used for acquiring physiological parameters of the pet;

the sensor module at least comprises a temperature measuring module, a positioning module and a near-infrared broad-spectrum module, the near-infrared broad-spectrum module is used for collecting the blood oxygen saturation in the pet body, and the positioning module is used for positioning the position of the pet in real time and sending the positioned geographic information to the microprocessor.

In the practical application process, the sensor module comprises a positioning module, an infrared temperature measurement module and a near-infrared broad spectrum module, and the positioning module, the infrared temperature measurement module and the near-infrared broad spectrum module are used for respectively monitoring the position information of the pet, the body temperature information and the in-vivo oxyhemoglobin saturation. And the infrared temperature measurement sensor normally works in a normal mode, and the infrared temperature measurement sensors stop working in a standby mode. The non-contact infrared temperature measurement utilizes infrared light radiated by an object to calculate the temperature of the object by measuring the infrared light, and has the characteristics of higher temperature resolution, high response speed, good stability and the like. Near infrared spectroscopy has evolved rapidly in recent years as a non-invasive monitoring modality. Compared with fMRI and PET, the near infrared spectrum technology has the advantages of portability, easy use, high price and the like. In addition, fMRI and PET require the monitored person to be immobile during the experiment, and nir spectroscopy is not limited in this respect. The ESP32 is specially designed for application of mobile equipment, wearable electronic products and the like, has high-level low-power consumption performance, and can be used as a microprocessor to realize comprehensive regulation and control functions among the above modules of the system.

In the practical application process, for the function selection of the positioning module, the ATGM336H has an excellent positioning and navigation function, has high sensitivity, and supports single-system positioning of a BDS/GPS/GLONASS satellite navigation system and multi-system combined positioning of any combination. The ATGM336H is used as a positioning module, so that the real-time position detection requirement of a master on the pet can be met, two working modes of a GPS and a Beidou can be supported, and the specific position information of the pet can be effectively monitored. The positioning module can select ATK1218 or ATGM336H, can support two working modes of GPS and Beidou, the communication protocol is NMEA-0183, the positioning accuracy can reach 2.5mCEP, and the cold start time is only 29s.

In the practical application process of detecting the physiological data of the pet, the wavelength of the light wave emitted by the near infrared spectrum is from 760nm to 850nm, and the light wave in the interval can be effectively combined with hemoglobin in the animal body to reflect different amounts of light waves. The photoelectric converter that receives the reflected light wave may use a photodiode such as OPT101 or OPT 301. The non-contact temperature sensor adopts an infrared sensor, the difference is slight according to different measured values of the measured distance, and the measured distance needs to be fixed between 2 cm and 3 cm. The infrared sensor adopts a non-contact mode, and damage to the sensor in the moving process of the pet is greatly reduced. The near infrared spectrum sensor emits infrared light with certain frequency to be emitted into the pet body, and then the related data of the blood oxygen concentration in the pet body is obtained by detecting the reflected light. The non-contact temperature sensor measures the body surface temperature of the pet in real time in an infrared temperature measurement mode.

The signal processing module 12 is connected with the sensor module 11 and is used for converting the physiological parameters of the pet collected by the sensor module into digital signals; and the signal processing module is used for filtering, amplifying and AD converting the signals obtained by infrared spectrum reflection and sending the processed signals into the microprocessor through an IO port.

The microprocessor 13 is connected with the signal processing module, compares the physiological parameters of the pet uploaded by the signal processing module with the data stored in the signal processing module to generate a comparison result, and wirelessly sends the acquired physiological parameters of the pet and the comparison result to the server; MCU microprocessor uses esp32, can support the low-power consumption mode to have WIFI module and bluetooth module, can support the stable remote communication of system.

In a practical application scenario, the microprocessor uses the esp32, integrates the antenna switch, the radio frequency balun, the power amplifier, the low noise amplifier, the filter and the power management module, and occupies a minimum printed circuit board area. The 2.4GHzWiFi and Bluetooth dual-mode chip adopts the TSMC low-power consumption 40nm technology, has the advantages of optimal power consumption performance and radio frequency performance, safety, reliability and easy expansion to various applications.

The power supply module is respectively and electrically connected with the sensor module, the microprocessor and the signal processing module; the lithium battery which can be miniature is used, and stable voltage between 3.3V and 5V can be provided for stable operation of the system.

In practical application scenes, the constant current source can be charged, intermittent work can be realized, the constant current source can work in a dormant state at night or when the constant current source is not used, the power supply energy consumption is reduced, and the constant current source can work for a long time after being charged once.

And the communication module 14 is connected with the microprocessor and is used for communicating the microprocessor and the server. The method is stable and long-distance communication, can prevent interference of various radio frequency signals, and can be expanded to various applications. The WIFI and Bluetooth parts above the esp32 are used by the communication module, the WIFI works in an AP mode to serve as a wireless access point, and the database is connected with the AP and communicates through a TCP protocol. Bluetooth uses the low-power consumption Bluetooth BLE mode, and the loss of electric quantity can be reduced to a great extent.

In an actual application scene, the communication module has two modes of WIFI and Bluetooth, and can support long-distance stable information communication. The WIFI module conforms to an IEEE 802.11b/g/n protocol and has three modes of Station, softAP and SoftAP + Station. The Bluetooth module supports Bluetooth5 and Bluetooth mesh and can be in a low power consumption mode. The two modes are used together, so that the interference in information transmission is reduced, the transmission stability is improved, and a user can receive data in real time. The communication module uses a WIFI module and can comprise a plurality of modes including a Station mode, an AP mode, a Station and AP coexistence mode and a promiscuous mode. The invention works in AP mode as a wireless access point, the database is connected with the AP, and the communication is carried out through TCP protocol. Preferably, the Bluetooth Low Energy (BLE) mode contained in the esp32 is used for communicating with the mobile phone of the user, so that the power consumption of the system is reduced.

Fig. 2 and fig. 3 are schematic structural views of a pet health monitoring device in accordance with an embodiment 2 of the present disclosure, and fig. 2 is a schematic structural view (front view) of an appearance of the pet health monitoring device in accordance with the present disclosure; FIG. 3 is a schematic structural diagram (side view) of the appearance of a pet health monitoring device according to the present invention;

the device appearance structure specifically includes:

the pet health management system comprises a collar body 21, pet health management equipment 22 arranged on the collar body and a server for storing data information uploaded by the pet health management equipment;

the appearance design of the system integrates all circuit modules in a constant-value black box, two keys, an indicator light and detection ports of two sensors are tightly exposed, the system adopts insulating materials, the risk of electric shock of a pet due to system faults is avoided, the appearance is simple and light, and convenience is brought to a user to use the pet.

The inner surface of the health management equipment is provided with a temperature measurement module detection port and a near-infrared broad-spectrum module detection port.

The outer surface of the health management equipment is provided with a power management key and a signal indicator light, the power management key is connected with the power module and used for selecting the working mode of the system, and the signal indicator light is used for displaying that the working condition of the current state is normal or the health condition of the pet is abnormal.

And insulating materials are adopted around the temperature measurement module detection port, the near-infrared broad-spectrum module detection port and the signal indicator lamp.

As shown in fig. 2 and fig. 3, the appearance structure of the system includes: the power

management module key

1,2, the power management module key 1 can control the system to be in a normal working state; the power management module button 2 can control the system to be in a low power consumption state. And the signal indicator lamp 3 is green when in normal work, and is red when the system alarms. A near infrared spectrum detection port 4 and an infrared temperature measurement detection port 5.

The pet health monitoring device provided by the present application is described below by way of an example. Referring to fig. 4, fig. 4 is a schematic view of a work flow of the pet health monitoring device according to the embodiment of the present application, wherein the work flow specifically includes:

the method comprises the steps of firstly selecting a starting system, and selecting a working mode of the system, namely a low power consumption mode or a normal working mode through a power management module. In the practical application process, the mode can be selected according to the

keys

1 and 2 on the pet collar, for example, the key 1 can correspondingly implement a normal working state, the key 2 can correspondingly implement a low power consumption state and is corresponding, the signal indicator lamp corresponding to the normal working state when the key 1 is pressed is green, the indicator lamp corresponding to the low power consumption state when the key 2 is pressed is blue or other colors, and the color can be adaptively adjusted according to the practical situation in the practical application process.

If the power manager selects to enter the low-power mode, the esp32 processes the low-power work standby, waits for the system to wake up again, stops working of the positioning sensor and the near infrared spectrum of the system, only the infrared sensor continues to operate, when the detected temperature exceeds a critical value, the system can give an alarm, a buzzer module or a sounding module can be added on the collar in the practical application process, when the current monitoring data is abnormal, the indicator light can be adopted to give a prompt, corresponding prompt sound can be sent, and the prompt work of a detection party is realized.

If the power manager selects to enter a normal working mode, the positioning module, the near infrared spectrum and the infrared temperature measurement all work normally, pet information detection data are sent to the esp32 through the signal processing module, and the microprocessor transmits information to the database and the user mobile phone through the WIFI and Bluetooth modes. WIFI is a wireless access point by setting the esp32 in the AP mode, can be connected with a database, and Bluetooth is in a low-power BLE state, stably transmits information to users, and reduces power consumption. In the actual application process, the data transmission mode in the detection process can be adjusted and selected according to the actual situation and the actual requirement, which is not limited herein.

In the practical application process, when it is detected that the current pet state is abnormal, for example, the pet body temperature is higher than the standard body temperature, and the oxygen saturation level in the pet blood is higher than the standard threshold value, the current pet state can be displayed through an indicator light, for example, the indicator light 3 in fig. 2 is switched to be red or other colors, the setting of the colors is not limited in the present application, and adaptive adjustment can be performed. It can be realized that on the basis of one indicator in fig. 2, an indicator is added, that is, one indicator is used to indicate that the current working state of the detection device is a low energy consumption state, a normal state or other states, and another indicator is used to indicate that the current detection result of the detection device is a normal abnormality.

The pet health monitoring device provided by the present application is described in detail above. 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. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, 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 a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

The above description is only a preferred embodiment of the present application and should not be taken as limiting the present application, and any modifications, equivalents, improvements and the like that are made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims

1. A pet health monitoring device, its characterized in that: the collar comprises a collar body, pet health management equipment arranged on the collar body and a server for storing data information uploaded by the pet health management equipment; the pet health management device comprises a pet health management device,

2. The pet health monitoring device of claim 1, wherein: the sensor module at least comprises a temperature measurement module, a positioning module and a near-infrared broad-spectrum module, wherein the near-infrared broad-spectrum module is used for collecting the blood oxygen saturation in the pet body, and the positioning module is used for positioning the position of the pet in real time and sending the positioned geographic information to the microprocessor.

3. The pet health monitoring device of claim 2, wherein: the pet monitoring system further comprises a mobile terminal which is in communication with the microprocessor through wireless, and the microprocessor can send the acquired pet physiological parameters, the comparison result generated by the microprocessor and the position information acquired by the positioning module to the mobile terminal through the communication module.

4. The pet health monitoring device of claim 2, wherein the positioning module employs an ATGM336H module, supporting both GPS and Beidou modes.

5. The pet health monitoring device of claim 2, wherein the health management device has a temperature module detection port and a near infrared broad spectrum module detection port on an inner surface thereof.

6. The pet health monitoring device of claim 1, further comprising a memory module; the storage module is in communication connection with the pet health platform and is used for storing pet monitoring information and generating pet monitoring records in the database.

7. The pet health monitoring device of claim 1, wherein a power management button and a signal indicator light are arranged on the outer surface of the health management equipment, the power management button is connected with the power module and used for selecting a working mode of a system, and the signal indicator light is used for displaying whether a current state working condition is normal or a pet health condition is abnormal.

8. The pet health monitoring device of claim 5 or 7, wherein insulation material is used around the temperature measurement module detection port, the near-infrared broad-spectrum module detection port and the signal indicator light.

9. The pet health monitoring device of claim 1, wherein the microprocessor is an esp32 with a WIFI module and a bluetooth module.

10. The pet health monitoring device of claim 1, wherein the power module employs a miniature lithium battery that provides a regulated voltage.