CN216674283U - Intelligent pet wearing equipment - Google Patents

Abstract

The utility model discloses intelligent wearing equipment for pets, which comprises a health index detection system, a positioning module, a control module and a signal transmission module, wherein the health index detection system is used for detecting a blood oxygen concentration value, a heart rate value and an electrocardio value of a pet and transmitting the blood oxygen concentration value, the heart rate value and the electrocardio value to the control module, the positioning module is used for transmitting position information of the pet to the control module, and the control module is used for transmitting the blood oxygen concentration value, the heart rate value, the electrocardio value and the position information to an external server through the signal transmission module. Through setting up health index detecting system, orientation module, control module and signal transmission module can make each item of health index of pet can transmit for outside server to make the server can issue these information for pet owner, in order to make things convenient for pet owner to master the condition of pet in time, make things convenient for pet owner to look after the pet. The utility model is mainly used in the technical field of intelligent wearing.

Description

Intelligent pet wearing equipment

Technical Field

The utility model relates to the technical field of intelligent wearing, in particular to intelligent wearing equipment for pets.

Background

With the improvement of living standard of people in recent years, more and more families for raising pets are provided, and the wearable devices for pets become a current hot research topic.

The existing pet electronic equipment cannot well monitor the pet, so that people cannot know the current state of the pet in time, and the pet electronic equipment is not beneficial to feeding the pet.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a pet intelligent wearing device, which solves one or more technical problems in the prior art and at least provides a beneficial selection or creation condition.

The solution of the utility model for solving the technical problem is as follows: the pet intelligent wearing equipment comprises a health index detection system, a positioning module, a control module and a signal transmission module, wherein the health index detection system is used for detecting a blood oxygen concentration value, a heart rate value and an electrocardio value of a pet and transmitting the blood oxygen concentration value, the heart rate value and the electrocardio value to the control module, the positioning module is used for transmitting position information of the pet to the control module, and the control module is used for transmitting the blood oxygen concentration value, the heart rate value, the electrocardio value and the position information to an external server through the signal transmission module.

Furthermore, this pet intelligence wearing equipment still includes display module, display module with control module connects, control module is used for converting electrocardio value into electrocardiogram information, display module will electrocardiogram information shows.

Further, this pet intelligence wearing equipment still includes speech recognition module and speaker, speech recognition module and speaker all are connected with control module, speech recognition module is used for discerning the sound that the user sent, and according to sound control speaker sound production.

Further, the positioning module comprises a GPS sub-positioning module, a Beidou sub-positioning module and a GLONASS sub-positioning module, the GPS sub-positioning module is used for positioning the position of the pet to obtain first sub-position information, the Beidou sub-positioning module is used for positioning the position of the pet to obtain second sub-position information, and the GLONASS sub-positioning module is used for positioning the position of the pet to obtain third sub-position information;

and averaging the first sub-position information, the second sub-position information and the third sub-position information to obtain the position information of the pet.

Further, this pet intelligence wearing equipment still includes temperature detection module, temperature detection module is used for detecting ambient temperature value, and will ambient temperature value transmits for control module, control module be used for with ambient temperature value passes through signal transmission module and transmits for external server.

Further, the signal transmission module comprises a GSM module and an NBIOT module, and the GSM module and the NBIOT module are respectively connected with the control module.

Further, the health index detection system comprises a MAX30102 module and an AD8232 module, wherein the MAX30102 module is used for detecting a blood oxygen concentration value and a heart rate value of the pet, and the AD8232 module is used for detecting an electrocardiogram value of the pet.

Further, the voice recognition module includes an LD3320 module.

Further, the control module includes the control module who uses two STM32 chips as the core, and two STM32 chips are first STM32 chips and second STM32 chips respectively, and wherein, first STM32 chip is used for being connected with the signal transmission module, the second STM32 chip is used for being connected with location module and healthy index detection system respectively, first STM32 chip and second STM32 chip interconnect.

Further, the model of the first STM32 chip is STM32F103, and the model of the second STM32 chip is STM32F 407.

The utility model has the beneficial effects that: the pet intelligent wearing equipment comprises a health index detection system, a positioning module, a control module and a signal transmission module, wherein the health index detection system is used for detecting a blood oxygen concentration value, a heart rate value and an electrocardio value of a pet and transmitting the blood oxygen concentration value, the heart rate value and the electrocardio value to the control module, the positioning module is used for transmitting position information of the pet to the control module, and the control module is used for transmitting the blood oxygen concentration value, the heart rate value, the electrocardio value and the position information to an external server through the signal transmission module. Through setting up health index detecting system, orientation module, control module and signal transmission module can make each item of health index of pet can transmit for outside server to make the server can issue these information for pet owner, in order to make things convenient for pet owner to master the condition of pet in time, make things convenient for pet owner to look after the pet.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures are only some embodiments of the utility model, not all embodiments, and that a person skilled in the art can also derive other designs and figures from them without inventive effort.

Fig. 1 is a schematic diagram of a module connection structure of a pet smart wearable device.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive efforts are within the protection scope of the present invention based on the embodiments of the present invention. In addition, all the coupling/connection relationships mentioned herein do not mean that the components are directly connected, but mean that a better coupling structure can be formed by adding or reducing coupling accessories according to specific implementation conditions. All technical characteristics in the utility model can be interactively combined on the premise of not conflicting with each other.

Embodiment 1, referring to fig. 1, a pet intelligent wearing device is provided, which includes a health index detection system 100, a positioning module 500, a control module 300, and a signal transmission module 200, where the health index detection system 100 is configured to detect a blood oxygen concentration value, a heart rate value, and an electrocardiogram value of a pet, and transmit the blood oxygen concentration value, the heart rate value, and the electrocardiogram value to the control module 300, the positioning module 500 is configured to transmit location information of the pet to the control module 300, and the control module 300 is configured to transmit the blood oxygen concentration value, the heart rate value, the electrocardiogram value, and the location information to an external server through the signal transmission module 200. The external server can inform the pet owner of the current pet condition in a message issuing mode, for example, the external server can inform the pet owner of the current body state of the pet in a mode of sending short messages or sending the short messages to the user APP through networking.

The health index detection system 100 refers to a system capable of detecting health indexes of pets, wherein the health indexes include: blood oxygen concentration value, heart rate value and electrocardiogram value. In this embodiment, the health indicator detecting system 100 can monitor the health condition of the pet by detecting the blood oxygen concentration value, the heart rate value and the electrocardiogram value of the pet.

The location module 500 refers to a module that can locate the location of the pet. In this embodiment, the positioning module 500 may obtain the position information of the pet, so that the owner of the pet can conveniently grasp the movement condition of the pet in time. The pet activity is conveniently monitored.

The control module 300 refers to a module that can process data transmitted from the health indicator detecting system 100 and the positioning module 500. In this embodiment, the control module 300 can process the blood oxygen concentration value, the heart rate value, the electrocardiogram value and the location information.

The signal transmission module 200 refers to a module capable of performing signal transmission. In this embodiment, the signal transmission module 200 is connected to an external server, and the control module 300, by connecting with the signal transmission module 200, can transmit the blood oxygen concentration value, the heart rate value, the electrocardiogram value and the location information to the external server, so that the server can process the information, for example, send the information to a pet owner, so as to facilitate the pet owner to better understand the health condition of the pet.

In this pet intelligence wearing equipment, through setting up healthy index detecting system 100, orientation module 500, control module 300 and signal transmission module 200 can make each item of healthy index of pet can transmit for outside server to make the server can issue these information for pet owner, in order to make things convenient for pet owner in time to master the condition of pet, make things convenient for pet owner to look after the pet.

In some preferred embodiments, the pet smart wearable device further comprises a display module 700, the display module 700 is connected to the control module 300, the control module 300 is configured to convert the electrocardiogram value into electrocardiogram information, and the display module 700 displays the electrocardiogram information.

The display module 700 is an OLED display module, specifically, a 0.96-inch OLED display module is used, wherein the resolution is 128 × 64, and the SSD1306 is used as a driving chip. The OLED display panel has a self-luminous characteristic, and has a very thin organic material coating layer and a substrate, which emit light when current flows therethrough, and has a large viewing angle (greater than 160 °), low power consumption, and a fast response speed. The OLED display screen module is connected to the control module 300 through an I2C bus.

In some preferred embodiments, the pet smart wearable device further comprises a voice recognition module 400 and a speaker (not shown), the voice recognition module 400 and the speaker are both connected to the control module 300, and the voice recognition module 400 is configured to recognize a sound emitted by the user and control the speaker to emit a sound according to the sound.

The voice recognition module 400 includes an LD3320 module. The LD3320 module has a password recognition mode and a normal mode. The password mode is divided into a first-level password and a second-level password. In some preferred embodiments, the pet smart wearable device uses password recognition mode of the LD3320 module, a primary password for wake-up recognition function and a secondary password for command.

After the LD3320 module recognizes the command, it sends the command to the control module 300 through the serial port. The control module 300 executes a corresponding task (voice broadcast, index transmission, etc.) according to the instruction.

In some preferred embodiments, the positioning module 500 comprises: the pet positioning system comprises a GPS sub-positioning module, a Beidou sub-positioning module and a GLONASS sub-positioning module, wherein the GPS sub-positioning module is used for positioning the position of a pet to obtain first sub-position information, the Beidou sub-positioning module is used for positioning the position of the pet to obtain second sub-position information, and the GLONASS sub-positioning module is used for positioning the position of the pet to obtain third sub-position information;

and averaging the first sub-position information, the second sub-position information and the third sub-position information to obtain the position information of the pet.

In this embodiment, little locating module is fixed a position in the use of pet intelligence wearing equipment. The middle micro positioning module supports Beidou, GPS and GLONASS satellite systems. The middle micro positioning module can integrate the GPS sub positioning module, the Beidou sub positioning module and the GLONASS sub positioning module together. In order to enable the positioning of the middle and micro positioning module to be more accurate, positioning is performed by using three positioning satellite systems, and final position information is obtained in an averaging mode. Thus, the position information of the pet can be more accurate.

In some preferred embodiments, the pet smart wearable device further comprises a temperature detection module 600, wherein the temperature detection module 600 is configured to detect an environmental temperature value and transmit the environmental temperature value to the control module 300, and the control module 300 is configured to transmit the environmental temperature value to an external server through a signal transmission module.

The intelligent wearing equipment for the pet uses the DS18B20 digital temperature sensor as the temperature detection module 600 to measure the body temperature of the pet. The DS18B20 digital temperature sensor is a single bus digital temperature sensor manufactured by DALLAS, Inc. of USA. The temperature measuring range is-55 ℃ to +125 ℃, and the maximum respective rate reaches 0.5 ℃.

In some preferred embodiments, the signal transmission module 200 includes a GSM module and an NBIOT module, which are respectively connected to the control module 300.

The GSM module is SIM9000A, and carries GA6-B module. The GA6-B module adopts 2G communication standard, and has wide coverage. The GA6-B module has a fast transmission speed, and supports a peak transmission rate of 85.6 kbps. UART is adopted to communicate with the control module 300, and the use is convenient.

The NBIOT module can perform data communication with an external server in a cloud data synchronization mode. The control module 300 forwards the acquired pet health index data to the NBIOT module through the UART serial port, and finally the NBIOT module sends the pet health index data to an external server.

In some preferred embodiments, the health index detection system 100 includes a MAX30102 module and an AD8232 module, where the MAX30102 module is configured to detect a blood oxygen concentration value and a heart rate value of a pet, and the AD8232 module is configured to detect an electrocardiogram value of the pet.

The MAX301022 module is an integrated pulse oximetry and heart rate monitoring biosensor module. It integrates a red LED, photodetector, optical device, and low noise electronic circuit with ambient light rejection. It is applicable to the wearable device for heart rate and blood oxygen collection and detection. The MAX301022 transmits the collected data to the control module 300 for processing using a standard I2C compliant communication interface.

The AD8232 module monitors the pet heart rate in real time. The AD8232 module is an integrated signal conditioning module for ECG and other biometric applications. The module is mainly used for extracting, amplifying and filtering weak biological signals under the condition of noise generated by movement or remote electrode placement, and is suitable for electrocardiosignal acquisition. The range of electrocardiosignal output by the AD8232 module is 0V-3.3V, and analog voltage signals are read at 50Hz frequency through the AD conversion peripheral of the control module 300 and are converted into data signals.

In some preferred embodiments, the control module 300 includes a control module having two STM32 chips as a core, the two STM32 chips being a first STM32 chip and a second STM32 chip, wherein the first STM32 chip is adapted to be connected to the signal transmission module 200, the second STM32 chip is adapted to be connected to the positioning module 500 and the health indicator detection system 100, respectively, and the first STM32 chip and the second STM32 chip are connected to each other. Wherein the model of the first STM32 chip is STM32F103, and the model of the second STM32 chip is STM32F 407.

In some embodiments, the first STM32 chip is connected with the NBIOT module and the SIM900A module through UART interfaces, respectively. The second STM32 chip is connected with the first STM32 chip through an SPI interface. Second STM32 chip pass I²The C interface is connected with the MAX30102 module. The second STM32 chip is connected with the AD8232 module through an ADC interface. The second STM32 chip is connected with the LD3320 module through a UART interface. And the second STM32 chip is connected with the middle micro positioning module through a UART interface. The second STM32 chip is connected with the DS18B20 digital temperature sensor through a GPIO port, and the second STM32 chip is connected with the DS18B20 digital temperature sensor through I²And the C interface is connected with the OLED display screen module.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the utility model and its scope is defined by the claims appended hereto.

Claims (10)

1. The intelligent pet wearing equipment is characterized by comprising a health index detection system, a positioning module, a control module and a signal transmission module, wherein the health index detection system is used for detecting a blood oxygen concentration value, a heart rate value and an electrocardio value of a pet and transmitting the blood oxygen concentration value, the heart rate value and the electrocardio value to the control module, the positioning module is used for transmitting position information of the pet to the control module, and the control module is used for transmitting the blood oxygen concentration value, the heart rate value, the electrocardio value and the position information to an external server through the signal transmission module.

2. The intelligent pet wearing device of claim 1, further comprising a display module, wherein the display module is connected with the control module, the control module is configured to convert the electrocardiogram value into electrocardiogram information, and the display module displays the electrocardiogram information.

3. The intelligent pet wearing device of claim 1, further comprising a voice recognition module and a speaker, wherein the voice recognition module and the speaker are both connected to the control module, and the voice recognition module is configured to recognize a sound emitted by the user and control the speaker to emit a sound according to the sound.

4. The intelligent pet wearing device of claim 1, wherein the positioning module comprises a GPS sub-positioning module, a beidou sub-positioning module and a GLONASS sub-positioning module, the GPS sub-positioning module is used for positioning the pet to obtain first sub-position information, the beidou sub-positioning module is used for positioning the pet to obtain second sub-position information, and the GLONASS sub-positioning module is used for positioning the pet to obtain third sub-position information;

and averaging the first sub-position information, the second sub-position information and the third sub-position information to obtain the position information of the pet.

5. The intelligent pet wearing device of claim 1, further comprising a temperature detection module for detecting an ambient temperature value and transmitting the ambient temperature value to the control module, wherein the control module is configured to transmit the ambient temperature value to an external server via the signal transmission module.

6. The intelligent pet wearing device of claim 1, wherein the signal transmission module comprises a GSM module and an NBIOT module, and the GSM module and the NBIOT module are respectively connected to the control module.

7. The intelligent wearable pet equipment of claim 1, wherein the health index detection system comprises a MAX30102 module and an AD8232 module, the MAX30102 module is configured to detect a blood oxygen concentration value and a heart rate value of the pet, and the AD8232 module is configured to detect an electrocardiogram value of the pet.

8. The pet smart wearable device of claim 3, wherein the voice recognition module comprises an LD3320 module.

9. A pet intelligence wearing equipment according to claim 1, characterized in that, control module includes the control module who uses two STM32 chips as the core, and two STM32 chips are first STM32 chips and second STM32 chips respectively, and wherein, first STM32 chip is used for being connected with the signal transmission module, the second STM32 chip is used for being connected with locating module and health index detecting system respectively, first STM32 chip and second STM32 chip interconnect.

10. The intelligent wearing equipment for pets according to claim 9, wherein the first STM32 chip is STM32F103, and the second STM32 chip is STM32F 407.

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