WO2017193256A1 - Pet wearable device and pet monitoring method therefor - Google Patents

Abstract

A method for monitoring a pet by using a pet wearable device (100). The method comprises: monitoring pet-related parameters at set time intervals, and storing the monitored pet-related parameters to a set storage space (S10); monitoring, at set time intervals, whether a remote control terminal (300) sends a data request instruction (S20); and when the data request instruction is monitored, sending all the pet-related parameters in the storage space to a server (200) and the remote control terminal (300), and clearing the storage space (S30). According to the provided pet wearable device (100) and the pet monitoring method therefor, the pet wearable device (100) does not need to send monitored pet-related parameters to the remote control terminal (300) in real time, and a user can learn about the state of a pet in any time by means of the remote control terminal (300), thereby reducing power consumption of the pet wearable device (100) and prolonging the standby time of the pet wearable device (100).

Description

Pet wearable device and method for regulating pet

Technical field

The present invention relates to the field of communications technologies, and in particular, to a pet wearable device and a method for monitoring the same.

Background technique

Most of the current pet wearable devices monitor the location of the pet by GPS technology to prevent the pet from being lost; and monitor the physiological parameters of the pet by real-time monitoring through the sensor, and then transmit the monitored data to the remote control terminal of the user.

Such a pet wearable device of the prior art transmits information in real time to ensure that the user remotely controls the terminal to synchronize data with the pet wearable device. Although the pet wearable device can realize real-time monitoring of the pet, the power consumption is large and the battery life is short due to the need to transmit the collected data in real time.

Summary of the invention

The main object of the present invention is to solve the technical problem that the pet wearable device in the prior art has large power consumption and short battery life.

In order to achieve the above object, the present invention provides a method for a pet wearable device to supervise a pet, and the method for the pet wearable device to supervise a pet includes:

The pet related parameters are monitored once every set time, and the monitored pet related parameters are stored in the set storage space;

Monitoring whether the remote control terminal sends a data request command every first set time;

When the data request instruction is monitored, all pet related parameters in the storage space are sent to the server and the remote control terminal, and the storage space is cleared.

Preferably, the method for the pet wearable device to supervise the pet further includes:

Determining, at a second set time, whether the amount of data storage in the storage space reaches a set threshold;

When the amount of data storage in the storage space reaches a set threshold, all pet related parameters in the storage space are sent to the server, and the storage space is cleared.

Preferably, the method for the pet wearable device to supervise the pet further includes:

Judging the current health status of the pet according to the pet related parameters obtained by the monitoring;

When the health status of the pet is abnormal, the image capturing function is turned on, and the captured image information is stored in the storage space;

Generating prompt information, and sending the prompt information to the remote control terminal to notify the user that the pet health state is abnormal;

After receiving the remote monitoring command sent by the remote control terminal, transmitting the image information to the remote control terminal; and starting the remote monitoring function, and transmitting the subsequently captured image information to the remote control terminal in real time.

Preferably, after the storing the captured image information to the storage space, the method further includes:

Selecting one frame of image from the captured image information;

The generating prompt information specifically includes:

Acquiring the image, the pet related parameter in the storage space, and generating prompt information carrying the image and the pet related parameter in the storage space.

Preferably, the set threshold value ranges from one-half to two-thirds of the maximum storage capacity of the storage space.

Preferably, the time length of the set time ranges from 0.5 to 3 seconds; the time length of the first set time ranges from 0.5 to 1 second; and the second set time The length ranges from 2 to 3 seconds.

In addition, in order to achieve the above object, the present invention also provides a pet wearable device, the pet wearable device comprising:

a monitoring module, configured to monitor pet related parameters once every set time, and store the monitored pet related parameters to a set storage space;

a monitoring module, configured to monitor, at every first set time, whether the remote control terminal sends a data request instruction;

And a sending module, configured to: when the listening module listens to the data request instruction, send all pet related parameters in the storage space to the server, and the remote control terminal, to clear the storage space.

Preferably, the pet wearable device further includes:

a determining module, configured to determine, at every second set time, whether the amount of data storage in the storage space reaches a set threshold;

The sending module is further configured to: when the data storage amount in the storage space reaches a set threshold, send all pet related parameters in the storage space to the server, and clear the storage space.

Preferably, the determining module is further configured to determine a current health state of the pet according to the pet related parameter obtained by the monitoring;

a shooting module, configured to: when the health state of the pet is abnormal, turn on an image capturing function, and store the captured image information into the storage space;

a prompting module, configured to generate the prompt information, and send the prompt information to the remote control terminal to notify the user that the health status of the pet is abnormal;

a remote control module, configured to: after receiving the remote monitoring command sent by the remote control terminal, transmit the image information to the remote control terminal; and activate a remote monitoring function to transmit the subsequently captured image information to the remotely Control terminal.

Preferably, the pet wearable device further includes:

a selection module, configured to select a frame image from the captured image information;

The prompting module is specifically configured to acquire the image, a pet related parameter in the storage space, and generate prompt information that carries the image and a pet related parameter in the storage space.

Preferably, the set threshold value ranges from one-half to two-thirds of the maximum storage capacity of the storage space.

Preferably, the time length of the set time ranges from 0.5 to 3 seconds; the time length of the first set time ranges from 0.5 to 1 second; and the second set time The length ranges from 2 to 3 seconds.

The pet wearable device and the method for regulating the same according to the present invention store the pet related parameters in the set storage space by monitoring the pet related parameters once every set time; every first set time Monitoring whether the remote control terminal sends a data request instruction; when the data request instruction is monitored, sending all pet related parameters in the storage space to the server, and the remote control terminal, clearing the storage space The pet wearable device does not need to send the monitored pet related parameters to the remote control terminal in real time, and the user can know the pet status at any time through the remote control terminal, and the pet wearable device is reduced compared to the existing pet wearable device. The power consumption increases the life time of the pet wearable device.

DRAWINGS

1 is a schematic flow chart of a method for a pet wearable device to supervise a pet according to an embodiment of the present invention;

2 is a schematic flow chart of another embodiment of a method for a pet wearable device to supervise a pet according to the present invention;

3 is a schematic diagram of functional modules of an embodiment of a pet wearable device according to the present invention;

4 is a schematic diagram of functional modules of another embodiment of a pet wearable device of the present invention;

5 is a schematic diagram of functional modules of still another embodiment of a pet wearable device according to the present invention;

6 is a schematic diagram of functional modules of still another embodiment of a pet wearable device of the present invention;

7 is a schematic structural diagram of a system for regulating pets according to the present invention;

8 is a schematic diagram of a specific refinement function module of the listening module in FIG. 3 to FIG. 6;

FIG. 9 is a schematic diagram of a data stream format of the present invention.

The implementation, functional features, and advantages of the present invention will be further described in conjunction with the embodiments.

detailed description

The preferred embodiments of the present invention are described in conjunction with the accompanying drawings, and the preferred embodiments described herein are intended to illustrate and explain the invention, and not to limit the invention, and The embodiments and the features in the embodiments can be combined with each other.

The present invention provides a method for a pet wearable device to supervise a pet. 1 is a schematic flow chart of a method for a pet wearable device to supervise a pet according to an embodiment of the present invention. In an embodiment, the method for the pet wearable device to supervise a pet includes:

Step S10: Monitor pet related parameters once every set time, and store the monitored pet related parameters into the set storage space.

The pet related parameters in this embodiment include: pet motion parameters, calorie value of burning, body temperature value, heart/pulse rate, blood oxygen saturation, pet sleep parameters, pet neck swallowing parameters, muscle strength, heart rate value, breathing Frequency value. The time length of the set time ranges from 0.5 to 3 seconds; for example, the length of the set time may be set to: 0.5 seconds, 1 second, 2 seconds, or 3 seconds.

Step S20: Monitor the remote control terminal to send a data request instruction every first set time.

In this embodiment, by monitoring the remote control terminal for sending a data request command every first set time, the power consumption command of the pet wearable device can be reduced compared to real-time monitoring whether the remote control terminal sends the data request command, and the pet can be extended. The life time of the wearable device. The time length of the first set time ranges from 0.5 to 1 second.

The remote control terminal side user in the embodiment may send a data request instruction to the pet wearable device through the remote control terminal according to the intention or actual needs of the user, so that the pet wearable device will use the storage space. All pet related parameters within are sent to the remote control terminal. After the remote control terminal receives the pet related parameter, the user can view the pet related parameter through the remote control terminal, and then the pet's condition can be known.

Step S30: When the data request instruction is monitored, send all pet related parameters in the storage space to the server and the remote control terminal, and clear the storage space.

In the embodiment, after the pet wearable device sends the all pet related parameters to the server and the remote control terminal, the storage space is cleared to provide sufficient storage space for the subsequently monitored pet related parameters.

The pet wearable device of the embodiment does not need to monitor the pet related parameters in real time, and does not need to send the monitored pet related parameters to the remote control terminal in real time, so compared with the pet wearable device in the prior art, Can greatly reduce the consumption of electricity.

The remote control terminal side user does not necessarily periodically send the data request instruction to the pet wearable device, if the remote control terminal side user does not send the data request instruction to the pet wearable device for a long time. The following phenomenon may occur: the pet-related parameters are stored in the storage space set in the pet wearable device, and the pet-related parameters that are subsequently monitored are discarded without storage space. In order to prevent the occurrence of such a phenomenon, the pet wearable device supervising the pet further includes processing of determining whether the data storage amount in the storage space reaches a set threshold every second set time. When the amount of data storage in the storage space reaches a set threshold, all pet related parameters in the storage space are sent to the server, and the storage space is cleared. This ensures that the pet-related parameters that are subsequently monitored have storage space and are not discarded. The time length of the second set time ranges from 2 to 3 seconds.

The set threshold value ranges from one-half to two-thirds of the maximum storage capacity of the storage space. For example, if the maximum storage amount of the storage space is M, and the set threshold is represented by N, the value range of N is: 1M/2 to 2M/3; that is, N can be 1M/2, 3M/5. Or 2M/3; if N is 1M/2, when the actual storage amount Q reaches 1M/2, all pet related parameters in the storage space are sent to the server.

In the pet wearable device of the present invention, whether the data request command sent by the remote control terminal is monitored, or the data storage amount of the set storage space reaches a set threshold, all data currently stored in the storage space needs to be stored. Sending to the server, the server receives the pet-related parameters sent by the pet wearable device, and stores the time in the local database according to the pet-related parameter receiving time to form a pet-related parameter file. In this way, the user can view the corresponding pet related parameters in the local database of the server through any intelligent terminal communicatively connected to the server, and then can understand the situation and status of the pet in the corresponding time period.

Further, referring to FIG. 2, FIG. 2 is a schematic flowchart diagram of another embodiment of a method for a pet wearable device to supervise a pet according to the present invention. The method for the pet wearable device to supervise the pet provided in this embodiment further includes:

Step S01: Determine the current health status of the pet according to the pet related parameters obtained by the monitoring.

Step S02: When the pet health state is abnormal, the image capturing function is turned on, and the captured image information is stored in the storage space.

Step S03: Generate prompt information, and send the prompt information to the remote control terminal to notify the user that the pet health status is abnormal.

Step S04: After receiving the remote monitoring command sent by the remote control terminal, transmitting the image information to the remote control terminal; and starting the remote monitoring function, and transmitting the subsequently captured image information to the remote control terminal in real time.

In the embodiment, after receiving the remote monitoring instruction, the pet wearable device transmits the stored image information and the subsequently captured image information to the remote control terminal in real time, and the user on the remote control terminal side can view The received image information is used to know what process the pet has undergone during the image capturing time period, and provides a reference for the user, so that the user can quickly make scientific treatment on the pet to prevent the pet from appearing dangerous.

The method for the pet wearable device to supervise a pet according to the above embodiment, after the storing the captured image information to the storage space, further includes the following process: selecting a frame image from the captured image information. The generating the prompt information specifically includes: acquiring the image, a pet related parameter in the storage space, and generating prompt information that carries the image and a pet related parameter in the storage space. That is, the image and the pet related parameter determine whether the remote control terminal side user sends a remote monitoring instruction to the pet wearable device to provide a more sufficient data reference.

In the above embodiment, the pet wearable device sends all data that needs to be sent to the remote control terminal to the remote control terminal through the server.

In the above embodiment, the pet wearable device uses a solar battery as a power supply device, so that the power supply device can be charged by the solar energy in an outdoor environment, thereby greatly prolonging the life time of the pet wearable device in an outdoor environment.

The method for the pet wearable device to supervise the pet provided by the foregoing embodiment is to monitor the pet related parameter by monitoring the pet related parameter every set time, and storing the monitored pet related parameter to the set storage space; monitoring every first set time Whether the remote control terminal sends a data request instruction; when the data request instruction is detected, all pet related parameters in the storage space are sent to the server, and the remote control terminal, and the storage space is cleared. The pet wearable device does not need to send the monitored pet related parameters to the remote control terminal in real time, and the user can know the pet status at any time through the remote control terminal, and the pet wearable device is reduced compared with the existing pet wearable device. Power consumption increases the life of your pet's wearable device.

The invention further provides a pet wearable device. Referring to FIG. 3, FIG. 3 is a schematic diagram of functional modules of an embodiment of a pet wearable device according to the present invention. In an embodiment, the pet wearable device 100 includes: a monitoring module 110, a monitoring module 120, and a sending module 130. The monitoring module 110 is configured to monitor the pet related parameters once every set time, and store the monitored pet related parameters into the set storage space. The monitoring module 120 is configured to monitor whether the remote control terminal sends a data request instruction every first set time. The sending module 130 is configured to: when the listening module listens to the data request instruction, send all pet related parameters in the storage space to the server, and the remote control terminal, to clear the storage space. The pet related parameters in this embodiment include: pet motion parameters, calorie value of burning, body temperature value, heart/pulse rate, blood oxygen saturation, pet sleep parameters, pet neck swallowing parameters, muscle strength, heart rate value, breathing Frequency value. The time length of the set time ranges from 0.5 to 3 seconds; for example, the length of the set time may be set to: 0.5 seconds, 1 second, 2 seconds, or 3 seconds.

In the embodiment, the pet wearable device 100 monitors whether the remote control terminal sends a data request command by the monitoring module 120 every first set time, and can reduce the data request command according to whether the remote control terminal sends the data request command in real time. The power consumption of the pet wearable device 100 extends the life time of the pet wearable device 100. The time length of the first set time ranges from 0.5 to 1 second.

The remote control terminal side user in the embodiment may send a data request instruction to the pet wearable device 100 through the remote control terminal according to the intention or actual needs of the user, so that the pet wearable device 100 All pet related parameters within the storage space are sent to the remote control terminal. After the remote control terminal receives the pet related parameter, the user can view the pet related parameter through the remote control terminal, and then the pet's condition can be known.

In the embodiment, after the pet wearable device 100 sends the all pet related parameters to the server and the remote control terminal, the storage space is cleared to provide sufficient storage space for the subsequently monitored pet related parameters.

The pet wearable device 100 of the embodiment does not need to monitor pet related parameters in real time, and does not need to send the monitored pet related parameters to the remote control terminal in real time, so compared with the pet wearable device in the prior art. Can greatly reduce the consumption of electricity.

The remote control terminal side user does not necessarily periodically send the data request instruction to the pet wearable device 100, if the remote control terminal side user does not send the data to the pet wearable device 100 for a long time. If the command is requested, the following phenomenon may occur: the pet-related parameters are stored in the storage space set in the pet wearable device 100, and the pet-related parameters that are subsequently monitored are discarded without storage space. In order to prevent the occurrence of such a phenomenon as described above, the present invention proposes another embodiment of the pet wearable device. Referring to FIG. 4, FIG. 4 is a schematic diagram of functional modules of another embodiment of a pet wearable device according to the present invention. The pet wearable device 100 further includes a determining module 140 on the basis of the foregoing embodiment. The determining module 140 is configured to determine, at every second set time, whether the amount of data storage in the storage space reaches a set threshold. The sending module 130 is further configured to: when the data storage amount in the storage space reaches a set threshold, send all pet related parameters in the storage space to the server, and clear the storage space. This ensures that the pet-related parameters that are subsequently monitored have storage space and are not discarded. The time length of the second set time ranges from 2 to 3 seconds.

The set threshold value ranges in the embodiment is: one-half to two-thirds of the maximum storage capacity of the storage space; for example, if the storage space maximum storage amount is M, the set threshold is used. The value of N is: 1M/2 to 2M/3; that is, N can be 1M/2, 3M/5, or 2M/3; if N is 1M/2, then when When the storage amount Q reaches 1M/2, all pet related parameters in the storage space are sent to the server.

In the pet wearable device 100 of the present invention, whether the data request command sent by the remote control terminal is monitored or the data storage amount of the set storage space reaches a set threshold, the storage space is currently stored. All data is sent to the server. The server receives the pet related parameters sent by the pet wearable device 100, and stores the time in the local database according to the pet related parameter receiving time to form a pet related parameter file. In this way, the user can view the corresponding pet related parameters in the local database of the server through any intelligent terminal communicatively connected to the server, and then can understand the situation and status of the pet in the corresponding time period.

Further, the present invention proposes another embodiment of the pet wearable device. Referring to FIG. 5, FIG. 5 is a schematic diagram of functional modules of still another embodiment of a pet wearable device according to the present invention. The foregoing embodiment of the pet wearable device 100 in this embodiment further includes: a shooting module 150, a prompting module 160, and a remote control module 170. The determining module 140 is further configured to determine a pet health status according to the monitored pet related parameter. The shooting module 150 is configured to enable the image capturing function when the pet is in a healthy state, and store the captured image information into the storage space. The prompting module 160 is configured to generate prompt information, and send the prompt information to the remote control terminal to notify the user that the pet health status is abnormal. The remote control module 170 is configured to: after receiving the remote monitoring command sent by the remote control terminal, transmit the image information to the remote control terminal; and activate a remote monitoring function to transmit the subsequently captured image information to the real-time to The remote control terminal.

In the embodiment, after receiving the remote monitoring instruction, the pet wearable device 100 transmits the stored image information and the subsequently captured image information to the remote control terminal in real time, and the user on the remote control terminal side can Viewing the received image information, and knowing what process the pet has undergone during the image capturing time period, providing a reference for the user, so that the user can quickly make scientific treatment on the pet to prevent the pet from appearing dangerous.

Further, the present invention proposes another embodiment of the pet wearable device. Referring to FIG. 6, FIG. 6 is a schematic diagram of functional modules of still another embodiment of a pet wearable device according to the present invention. The foregoing embodiment of the pet wearable device 100 in this embodiment further includes: a selection module 180. The selection module 180 is configured to select one frame image from the captured image information. The prompting module 160 is specifically configured to acquire the image, the pet related parameter in the storage space, and generate prompt information that carries the image and the pet related parameter in the storage space. That is, the image and the pet related parameter determine whether the remote control terminal side user sends a remote monitoring instruction to the pet wearable device 100 to provide a more sufficient data reference.

In the above embodiment, the pet wearable device 100 transmits all data that needs to be sent to the remote control terminal to the remote control terminal through the server.

In the above embodiment, the pet wearable device 100 uses a solar battery as a power supply device, so that the power supply device can be charged by the solar energy in an outdoor environment, thereby greatly extending the life time of the pet wearable device 100 in an outdoor environment. .

The pet wearable device 100 provided by the above embodiment monitors the pet related parameters to the set storage space by monitoring the pet related parameters once every set time; and monitoring the remote control every first set time. Whether the terminal sends a data request instruction; when the data request instruction is monitored, all pet related parameters in the storage space are sent to the server, and the remote control terminal, and the storage space is cleared, and the pet may The wearable device 100 does not need to send the monitored pet related parameters to the remote control terminal in real time, and the user can know the pet status at any time through the remote control terminal, and the pet wearable device 100 is reduced compared to the existing pet wearable device 100. The power consumption extends the life time of the pet wearable device 100.

The pet wearable device and its method of regulating pets provided by the invention will now be described in further detail by way of example.

Referring to FIG. 7, FIG. 7 is a schematic structural diagram of a system for monitoring a pet according to the present invention. The system for regulating pets 1000 includes a pet wearable device 100, a server 200, and a remote control terminal 300. The pet wearable device 100, the server 200, and the remote control terminal 300 are the pet wearable device, the server, and the remote control terminal according to the above embodiments.

The monitoring module 110 in the pet wearable device 100 monitors the pet related parameters once every set time, and stores the pet related parameters obtained by each monitoring in the set storage space.

The monitoring module 120 in the pet wearable device 100 determines whether to receive the data request instruction sent by the remote control terminal 300 every first set time.

Referring to FIG. 8, FIG. 8 is a schematic diagram of a specific refinement function module of the monitoring module in FIG. 3 to FIG. The monitoring module 120 includes a timing unit 121, a matching unit 122, and a detecting unit 123. The matching unit 122 determines, according to the first set time set by the timing unit 121, whether it receives the foreign information once every first set time. If the foreign information is received, the foreign information is matched with the local reference information; when the matching is successful, the foreign information is considered to be a data request command sent by the remote control terminal 300, and then the local identification number P is marked as P= True; when the match fails, the local identification number P is marked as P=false. The detecting unit 123 detects the value of the identification number P in the matching unit 122 every first set time according to the first set time set by the timing unit 121; when P=false, the local identification number K is marked as K. =0; when P=true, the local identification number K is marked as K=1, and the identification number K=1 is sent to the sending module 130. After receiving the identification number K=1, the sending module 130 acquires all pet related parameters in the set storage space, and converts all the pet related parameters into a data stream in the format shown in FIG. 9, FIG. A schematic diagram of the data stream format of the present invention; and the transport flag bit R in the data stream is marked as R=1, and then the data stream is sent to the server, and the storage space is emptied.

The determining module 140 in the pet wearable device 100 determines, according to the preset second set time, whether the data storage amount in the storage space reaches a set threshold every second set time. When the amount of data storage in the storage space reaches a set threshold, the identification number W in the storage space is marked as W=1, and W=1 is sent to the sending module 130. The sending module 130 acquires all pet related parameters in the storage space according to the W=1, converts all the pet related parameters into a data stream in a format as shown in FIG. 9, and transmits the marking in the data stream. Bit R is labeled R=0 and the data stream is then sent to the server 200.

After receiving the data stream sent by the pet wearable device 100, the server 200 first determines the value of the transmission flag bit R in the data stream; when R=0, the received pet is related according to the order of receiving time. The parameters are stored to the corresponding location of the local database; when R=1, the received pet related parameters are stored to the corresponding location of the local database, and all the pet related parameters received are also sent to the remote control terminal 300.

The determining module 140 in the pet wearable device 100 needs to determine the current health status of the pet after the monitoring module 110 detects the pet related parameter; when the pet health state is abnormal, the image capturing function is turned on, and the shooting is performed. And storing image information into the storage space; and selecting one frame image from the captured image information; and then generating prompt information carrying the image and pet related parameters in the storage space, and converting the prompt information into The data stream is in the format shown in Figure 9, and the transport flag bit R in the data stream is labeled R = 1, and the pet status flag bit B is labeled B = 1; then the data stream is sent to the server 200. The server 200 sends the data stream to the remote control terminal 300 according to R=1.

After the remote control terminal 300 receives the prompt information, the user may determine whether to send a remote control instruction to the pet wearable device 100 according to actual conditions. After receiving the remote monitoring command sent by the remote control terminal 300, the pet wearable device 100 transmits the image information to the remote control terminal 300; and activates the remote monitoring function to transmit the subsequently captured image information to the real-time to The remote control terminal 300.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims (20)

 A method for a pet wearable device to supervise a pet, characterized in that the method for the pet wearable device to supervise a pet includes: The pet related parameters are monitored once every set time, and the monitored pet related parameters are stored in the set storage space; Monitoring whether the remote control terminal sends a data request command every first set time; When the data request instruction is monitored, all pet related parameters in the storage space are sent to the server and the remote control terminal, and the storage space is cleared. The method of claim 1 , wherein the method further comprises: Judging the current health status of the pet according to the pet related parameters obtained by the monitoring; When the health status of the pet is abnormal, the image capturing function is turned on, and the captured image information is stored in the storage space; Generating prompt information, and sending the prompt information to the remote control terminal to notify the user that the pet health state is abnormal; After receiving the remote monitoring command sent by the remote control terminal, transmitting the image information to the remote control terminal; and starting the remote monitoring function, and transmitting the subsequently captured image information to the remote control terminal in real time. The method of claim 2, wherein the storing the captured image information to the storage space further comprises: Selecting one frame of image from the captured image information; The generating prompt information specifically includes: Acquiring the image, the pet related parameter in the storage space, and generating prompt information carrying the image and the pet related parameter in the storage space. The method of claim 1 , wherein the method further comprises: Determining, at a second set time, whether the amount of data storage in the storage space reaches a set threshold; When the amount of data storage in the storage space reaches a set threshold, all pet related parameters in the storage space are sent to the server, and the storage space is cleared. A method of a pet wearable device for regulating a pet according to claim 4, wherein The set threshold value ranges from one-half to two-thirds of the maximum storage capacity of the storage space. The method of claim 4, wherein the length of the set time is in a range of 0.5 to 3 seconds; and the length of the first set time is a value. The range is: 0.5 to 1 second; the length of the second set time ranges from 2 to 3 seconds. The method of claim 4, wherein the method further comprises: Judging the current health status of the pet according to the pet related parameters obtained by the monitoring; When the health status of the pet is abnormal, the image capturing function is turned on, and the captured image information is stored in the storage space; Generating prompt information, and sending the prompt information to the remote control terminal to notify the user that the pet health state is abnormal; After receiving the remote monitoring command sent by the remote control terminal, transmitting the image information to the remote control terminal; and starting the remote monitoring function, and transmitting the subsequently captured image information to the remote control terminal in real time. The method of claim 7, wherein the storing the captured image information to the storage space further comprises: Selecting one frame of image from the captured image information; The generating prompt information specifically includes: Acquiring the image, the pet related parameter in the storage space, and generating prompt information carrying the image and the pet related parameter in the storage space. A method of a pet wearable device for regulating a pet according to claim 8, wherein The set threshold value ranges from one-half to two-thirds of the maximum storage capacity of the storage space. The method of claim 8, wherein the length of the set time is in a range of 0.5 to 3 seconds; and the length of the first set time is a value. The range is: 0.5 to 1 second; the length of the second set time ranges from 2 to 3 seconds. A pet wearable device, characterized in that the pet wearable device comprises: a monitoring module, configured to monitor pet related parameters once every set time, and store the monitored pet related parameters to a set storage space; a monitoring module, configured to monitor, at every first set time, whether the remote control terminal sends a data request instruction; And a sending module, configured to: when the listening module listens to the data request instruction, send all pet related parameters in the storage space to the server, and the remote control terminal, to clear the storage space. A pet wearable device according to claim 11 wherein: The determining module is further configured to determine a current health state of the pet according to the pet related parameter obtained by the monitoring; a shooting module, configured to: when the health state of the pet is abnormal, turn on an image capturing function, and store the captured image information into the storage space; a prompting module, configured to generate the prompt information, and send the prompt information to the remote control terminal to notify the user that the health status of the pet is abnormal; a remote control module, configured to: after receiving the remote monitoring command sent by the remote control terminal, transmit the image information to the remote control terminal; and activate a remote monitoring function to transmit the subsequently captured image information to the remotely Control terminal. The pet wearable device according to claim 12, further comprising: a selection module, configured to select a frame image from the captured image information; The prompting module is specifically configured to acquire the image, a pet related parameter in the storage space, and generate prompt information that carries the image and a pet related parameter in the storage space. The pet wearable device according to claim 11, further comprising: a determining module, configured to determine, at every second set time, whether the amount of data storage in the storage space reaches a set threshold; The sending module is further configured to: when the data storage amount in the storage space reaches a set threshold, send all pet related parameters in the storage space to the server, and clear the storage space. The pet wearable device according to claim 14, wherein the set threshold value ranges from one-half to two-thirds of a maximum storage amount of the storage space. The pet wearable device according to claim 14, wherein the set time length ranges from 0.5 to 3 seconds; and the first set time length ranges from 0.5 to 0.5. Up to 1 second; the time length of the second set time ranges from 2 to 3 seconds. A pet wearable device according to claim 14 wherein: The determining module is further configured to determine a current health state of the pet according to the pet related parameter obtained by the monitoring; a shooting module, configured to: when the health state of the pet is abnormal, turn on an image capturing function, and store the captured image information into the storage space; a prompting module, configured to generate the prompt information, and send the prompt information to the remote control terminal to notify the user that the health status of the pet is abnormal; a remote control module, configured to: after receiving the remote monitoring command sent by the remote control terminal, transmit the image information to the remote control terminal; and activate a remote monitoring function to transmit the subsequently captured image information to the remotely Control terminal. The pet wearable device according to claim 17, further comprising: a selection module, configured to select a frame image from the captured image information; The prompting module is specifically configured to acquire the image, a pet related parameter in the storage space, and generate prompt information that carries the image and a pet related parameter in the storage space. The pet wearable device according to claim 18, wherein the set threshold value ranges from one-half to two-thirds of the maximum storage capacity of the storage space. The pet wearable device according to claim 18, wherein the set time length ranges from 0.5 to 3 seconds; and the first set time length ranges from 0.5 to 0.5. Up to 1 second; the time length of the second set time ranges from 2 to 3 seconds.