CN108599360B - Method and device for starting standby battery - Google Patents

Abstract

The invention discloses a method and a device for starting a standby battery, wherein the method for starting the standby battery comprises the following steps: the pet intelligent device monitors the electric quantity of the main battery; judging whether the electric quantity of the main battery is lower than a preset value; if yes, the positioner is closed and the backup battery is started. According to the starting method and device of the backup battery, when the electric quantity of the main battery of the locator is lower than the preset value, the locator is closed, and the backup battery is started, so that the electric quantity loss of the battery is reduced, and the situation that the pet owner loses control over the pet due to the fact that the electric quantity of the main battery of the pet intelligent device is exhausted is avoided.

Description

Method and device for starting standby battery

Technical Field

The invention relates to the field of pet wearing equipment, in particular to a method and a device for starting a standby battery.

Background

With the improvement of living standard of people, raising pets becomes a leisure mode for many families. In order to prevent the pet from being lost, people generally bring the pet intelligent device to the pet, the locator is usually installed on the pet intelligent device, and the locator can acquire the position information of the pet to prevent the pet from being lost. The locator basically needs to be located by means of a mobile network, BT and a satellite navigation system, and the power consumption is serious, so that the pet intelligent device needs to be provided with a battery with certain electric quantity to supply power to the locator for a long time. However, when the battery is exhausted, if the pet is outdoors, the locator cannot continuously feed back the real-time position information of the pet to the pet owner, and the pet may get lost.

Disclosure of Invention

The invention mainly aims to provide a method and a device for starting a standby battery, which are used for starting the standby battery to supply power in time when the electric quantity of a main battery of a pet intelligent device is exhausted by a locater, so that a pet is prevented from getting lost.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows: a backup battery activation method, comprising:

monitoring the electric quantity of the main battery;

judging whether the electric quantity of the main battery is lower than a preset value;

if yes, the positioner is closed and the backup battery is started.

Further, the step of shutting down the positioner and activating the backup battery may be preceded by the steps of:

acquiring first current position information of a pet;

judging whether the first current position information is matched with the preset position information of the user or not;

if not, generating execution information, wherein the execution information comprises a power-off instruction and a starting instruction;

and closing the positioner according to the power-off instruction, and starting the standby battery according to the starting instruction.

Further, the executing information further includes low power information, and after the step of turning off the positioner according to the power-off instruction and turning on the backup battery according to the start instruction, the executing information includes:

and sending the first current position information and the low power information to a server or a terminal.

Further, before the step of determining whether the electric quantity of the main battery is lower than the preset value, the method includes:

acquiring second current position information of the pet;

judging whether the second current position of the pet exceeds an electronic fence preset by the user or not;

if yes, starting the positioner to position.

Further, if yes, the steps of turning off the positioner and turning on the backup battery include:

and switching the standby battery to supply power to the display screen.

The invention also provides a standby battery starting device, which comprises:

the first monitoring unit is used for detecting the electric quantity of the main battery;

the first judgment unit is used for judging whether the electric quantity of the main battery is lower than a preset value;

and the first control unit is used for turning off the positioner and starting the standby battery if the electric quantity of the main battery is lower than a preset value.

Further, still include:

the pet positioning device comprises a first acquisition unit, a second acquisition unit and a control unit, wherein the first acquisition unit is used for acquiring first current position information of a pet;

the second judging unit is used for judging whether the first current position information is matched with the user preset position information;

the device comprises a first generation unit, a second generation unit and a control unit, wherein the first generation unit is used for executing information, and the execution information comprises a power-off instruction and a starting instruction;

and the first execution unit is used for closing the positioner according to the power-off instruction and starting the standby battery according to the starting instruction.

Further, the execution information further includes low battery information, and the backup battery enabling apparatus further includes:

and the first sending unit is used for sending the first current position information and the low power information to the server or the terminal.

Further, still include:

the second acquisition unit is used for acquiring second current position information of the pet;

the third judgment unit is used for judging whether the second current position of the pet exceeds the electronic fence preset by the user or not;

and the first starting unit is used for starting the positioner to position if the second current position exceeds the electronic fence preset by the user.

Further, still include:

and the first switching unit is used for switching the standby battery to supply power to the display screen.

According to the starting method and device of the backup battery, when the electric quantity of the main battery of the locator is lower than the preset value, the locator is closed, and the backup battery is started, so that the electric quantity loss of the battery is reduced, and the situation that the pet owner loses control over the pet due to the fact that the electric quantity of the main battery of the pet intelligent device is exhausted is avoided.

Drawings

FIG. 1 is a schematic flow chart diagram illustrating a method for activating a backup battery according to an embodiment of the present invention;

FIG. 2 is a block diagram illustrating the structure of a positioner according to an embodiment of the present invention;

FIG. 3 is a schematic flow chart diagram illustrating a method for activating a backup battery according to another embodiment of the present invention;

FIG. 4 is a schematic flow chart diagram illustrating a method for activating a backup battery according to another embodiment of the present invention;

FIG. 5 is a schematic flow chart diagram illustrating a method for activating a backup battery according to yet another embodiment of the present invention;

FIG. 6 is a schematic flow chart diagram illustrating a method for activating a backup battery according to another embodiment of the present invention;

FIG. 7 is a schematic flow chart diagram illustrating a method for activating a backup battery according to another embodiment of the present invention;

FIG. 8 is a block diagram illustrating the structure of a battery backup activation device in accordance with one embodiment of the present invention;

FIG. 9 is a block diagram schematically illustrating the construction of a backup battery enabling apparatus according to another embodiment of the present invention;

FIG. 10 is a block diagram schematically illustrating the construction of a backup battery enabling apparatus according to yet another embodiment of the present invention;

FIG. 11 is a block diagram schematically illustrating the construction of a backup battery enabling apparatus according to still another embodiment of the present invention;

FIG. 12 is a block diagram schematically illustrating the structure of a backup battery enabling apparatus according to yet another embodiment of the present invention;

fig. 13 is a block diagram schematically illustrating the construction of a backup battery enabling apparatus according to still another embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, those skilled in the art will not know

All other embodiments obtained on the premise of inventive work belong to the protection scope of the invention.

Descriptions in this specification as relating to "first", "second", etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to any indicated technical feature or quantity. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1, an embodiment of a method for activating a backup battery according to the present invention is provided, where the method includes:

s1, monitoring the electric quantity of the main battery;

s2, judging whether the electric quantity of the main battery is lower than a preset value;

s3, the positioner is turned off and the battery backup is activated.

In the above step S1, the pet smart device includes a locator 500, and the pet smart device has functions of locating a pet position, collecting specified parameters (such as heart rate, steps, etc.) of the pet, connecting to a network, and the like, where the function of locating the pet position is implemented by the locator 500. Referring to fig. 2, in the present embodiment, the pet smart device further includes a processor 100, a memory 200, a sensor 300, a wireless transmitter 400, a wireless antenna 600, a power manager 700, a main battery 800, a microprocessor 900, a backup battery 101, a display screen 201, and the like. The sensor 300 is used for collecting designated parameters of the pet; the wireless transmitter 400 includes a wireless radio frequency module 401, a WIFI/BT module 402, and the like, wherein the wireless radio frequency module 401 is composed of a radio frequency front end, a radio frequency transceiver, and a radio frequency amplifier, and completes receiving and transmitting of radio frequency signals through the wireless antenna 600; the wireless antenna 600 includes a radio frequency antenna 601 and a WIFI/BT antenna 602; the memory 200 includes an MCP supporting a high-speed memory system; the locator 500 is a GPS locator, and can obtain the location information of the pet by location; the power manager 700 IS composed of a dedicated power management chip, which may be HIP6301, IS6537, etc., and the power manager 700 IS responsible for the on/off processing, power supply, battery charging and power management of the positioner system, and can also monitor the electric quantity of the main battery 800; the main battery 800 is used for supplying power to the processor 100, the memory 200, the sensor 300, the wireless transmitter 400, the locator 500 and the like of the locator; the standby battery 101 is used for supplying power to the display screen 201, the standby battery 101 can be a button battery, and the display screen 201 is an ultra-low power consumption display screen 201, such as an electronic ink screen and a flexible display screen 201. In this embodiment, the power manager 700 of the positioner constantly monitors the power of the main battery 800, and transmits the power information of the main battery 800 to the processor 100 for further processing.

In the step S2, the preset value may range from 1% to 10% of the total electric quantity of the main battery 800, and specifically, the preset value may be set to one of 2%, 3%, 4%, 5%, and the like of the total electric quantity of the main battery 800, and is set according to actual needs. The memory 200 may be pre-stored with a minimum electric quantity threshold, and the processor 100 processes the electric quantity information according to the electric quantity information of the main battery 800 detected by the power supply tube, and then compares the processed electric quantity information with the minimum electric quantity threshold in the memory 200 to determine whether the electric quantity of the main battery 800 at this time is lower than the minimum electric quantity threshold.

In step S3, after detecting that the power of the main battery 800 is lower than the preset minimum power threshold in the memory 200, the processor 100 generates an instruction to the power manager 700, the power manager 700 cuts off the power supply from the main battery 800 to the positioner 500, the positioner is automatically turned off, and the backup battery 101 is turned on.

Referring to fig. 3, before the step of turning off the positioner and starting the backup battery, the method comprises:

s31, acquiring first current position information of the pet;

s32, judging whether the first current position information is matched with the user preset position information;

s33, if not matched, generating execution information, wherein the execution information comprises a power-off instruction and a starting instruction;

and S34, turning off the positioner according to the power-off instruction, and starting the standby battery according to the starting instruction.

In the above steps S31 to S34, the locator 500 and/or the WIFI/BT module 402 collects current location information of the pet, where the current location information includes satellite location information and/or network location information, where the network location information includes WIFI location information, base station location information, and the like. The user preset position information comprises a position where the pet is frequently kept (such as a home) and/or a position where the pet appears in history (such as a park near the home), the user preset position information is stored in the memory 200 in advance, in daily outdoor activities, the locator also transmits the outdoor activity position information of the pet to the processor 100, and the processor 100 stores the outdoor activity position information into the memory 200 and establishes a position information database together with the user preset position information; the processor 100 compares the acquired current pet position information with the position information in the position information database, so as to confirm whether the pet is currently in a lost state in time, and facilitate the pet owner to take treatment measures in time. When the comparison is not matched, the processor 100 generates a power-off command for controlling the positioner 500 to turn off and a power-on command for turning on the backup battery 101, so that the power manager 700 turns off the positioner 500 and turns on the backup battery 101 according to the power-off command and the power-on command.

Referring to fig. 4, the step of executing the information further includes low power information, and after the step of turning off the locator according to the power-off instruction and turning on the backup battery according to the start instruction, includes:

and S35, sending the first current position information and the low power information to a server or a terminal.

In the step S35, after the positioner 500 is turned off, the main battery 800 continues to supply power to other components of the pet smart device; the terminals can be one of a smart phone, a tablet personal computer and a computer, the terminals are in communication connection with the pet intelligent device through the server, and after the server receives the current position information, the current position information is forwarded to devices which can be checked by pet owners such as the smart phone, the tablet personal computer or the computer in communication connection with the server. In this embodiment, the first current position information refers to a real-time position of the pet before the power-off of the locator 500, i.e., a last position of the pet before the pet is lost; the low battery information is the real-time battery level of the main battery 800 monitored by the power manager 700. The first current position information and the low power information are sent to the corresponding server or terminal, so that a pet owner can quickly know the position of the pet and the power consumption of the main battery 800 of the pet intelligent device is exhausted, the pet owner can conveniently take corresponding treatment measures in time, and the pet can be found back in time.

Referring to fig. 5, before the step of determining whether the electric quantity of the main battery is lower than the preset value, the method includes:

s21, acquiring second current position information of the pet;

s22, judging whether the second current position of the pet exceeds the electronic fence preset by the user;

and S23, if yes, starting the positioner to position.

In the above step S21 and step S22, the second current location information is a real-time location of the pet, the electronic fence is an area covering the electronic signal, the electronic fence in this embodiment may be a bluetooth electronic fence or a WIFI electronic fence, the pet owner may set the electronic fence through a mobile phone or a home WIFI, a coverage area of the electronic fence may be within a diameter range of 100 meters around the mobile phone or the home WIFI, or may be 200 meters, 300 meters, and the like, and may be set according to actual needs. When the pet is in the electronic fence, the pet is controlled by the pet owner no matter whether the electric quantity of the main battery 800 is lower than a preset value or not; when it is detected that the current position of the pet exceeds the range of the electronic fence, which indicates that the pet is out of the control of the pet owner, the pet may be lost, then the locator 500 is activated to monitor the real-time position of the pet, and the step S2 is performed.

Referring to fig. 6, after the step of starting the positioner for positioning, the method includes:

and S231, sending the second current position information of the pet to a server or a terminal.

In step S231, the terminal may be one of a smart phone, a tablet computer, and a computer, and the terminals and the pet smart device establish communication connection through the server. In this embodiment, the terminal is a mobile phone, after the locator 500 is started to monitor the second current position information of the pet, the wireless transmitter 400 sends the second current position information of the pet to the server, and the server sends the second current position information to the mobile phone, so that the pet owner can know the current real-time position of the pet from the mobile phone, and when the pet owner feels that the current real-time position of the pet is separated from the control of the pet owner, the pet owner can take corresponding measures to find the pet back, so as to prevent the pet from being lost and lost after the electric quantity of the locator main battery 800 is exhausted.

Referring to fig. 7, if yes, the steps of turning off the positioner and turning on the backup battery include:

and S4, switching the standby battery to supply power to the display screen.

In the above step S4, the power manager 700 controls the main battery 800 to cut off the power supply to the pointing device 500, and the pointing device 500 is turned off, and at the same time, the power manager 700 controls the backup battery 101 to start supplying power to the display screen 201.

Referring to fig. 7, the step of switching the backup battery to supply power to the display screen further includes:

and S41, displaying the pre-stored pet owner information on a display screen.

In the step S41, the pet owner information includes identity information (such as name, sex, etc.), telephone information, home location, etc., and the pet owner information may be stored in the memory 200 in advance, and after the standby battery 101 supplies power to the display screen 201, the processor 100 will extract the pet owner information from the memory 200, and after the information is processed by the microprocessor 900, the pet owner information is finally displayed by the display screen 201, so that when the pet is lost, a lover can timely obtain the relevant information of the pet owner from the display screen 201, and timely contact the pet owner to help the pet owner to retrieve the pet.

Referring to fig. 7, the step of displaying the pre-stored pet owner information on the display screen further includes:

s42, monitoring whether the electric quantity of the main battery is zero;

and S43, if yes, stopping sending information to the server or the terminal.

In the above steps S42 and S43, the power manager 700 continuously monitors the electric quantity of the main battery 800, when the electric quantity of the main battery 800 is monitored to be zero, that is, the electric quantity of the main battery 800 is exhausted, most parts of the pet smart device stop operating, and enter a sleep state, and the backup battery 101 only supplies power to the memory 200, the processor 100 and the display screen 201, so that the display screen 201 continuously displays the owner information of the pet; because most parts of the pet intelligent device stop operating, relevant information does not occur to the server or the terminal any more, the relevant information comprises first current position information, low power information, second current position information and the like, a pet owner loses control over the pet at the moment and can only find the pet with the help of lovers.

According to the starting method of the standby battery, when the electric quantity of the main battery 800 of the positioner is exhausted, the standby battery 101 is started to supply power to the display screen 201, the display screen 201 displays the information of the owner of the pet, and a keen person near the lost pet can assist the owner of the pet to find the lost pet in time according to the information of the owner of the pet displayed by the display screen 201, so that a convenient way for finding the lost pet is provided for the owner of the pet.

Referring to fig. 8, the present invention also provides an embodiment of a backup battery activation device, including:

the first monitoring unit 1 is used for detecting the electric quantity of the main battery;

the first judging unit 2 is used for judging whether the electric quantity of the main battery is lower than a preset value;

and the first control unit 3 is used for turning off the positioner and starting the standby battery if the electric quantity of the main battery is lower than a preset value.

In the first monitoring unit 1, the pet smart device includes the locator 500, and the pet smart device has functions of locating a pet position, collecting designated parameters (such as heart rate, steps, etc.) of the pet, connecting a network, and the like, wherein the function of locating the pet position is realized by the locator 500. Referring to fig. 2, in the present embodiment, the pet smart device further includes a processor 100, a memory 200, a sensor 300, a wireless transmitter 400, a wireless antenna 600, a power manager 700, a main battery 800, a microprocessor 900, a backup battery 101, a display screen 201, and the like. The sensor 300 is used for collecting designated parameters of the pet; the wireless transmitter 400 includes a wireless radio frequency module 401, a WIFI/BT module 402, and the like, wherein the wireless radio frequency module 401 is composed of a radio frequency front end, a radio frequency transceiver, and a radio frequency amplifier, and completes receiving and transmitting of radio frequency signals through the wireless antenna 600; the wireless antenna 600 includes a radio frequency antenna 601 and a WIFI/BT antenna 602; the memory 200 includes an MCP supporting a high-speed memory system; the locator 500 is preferably a GPS locator, and can obtain the location information of the pet by location; the power manager 700 IS composed of a special power management chip, which can be HIP6301, IS6537, and the like, and the power manager 700 IS responsible for the on-off processing, power supply, battery charging and power management of the positioner system and can also monitor the electric quantity of the main battery 800; the main battery 800 is used for supplying power to the processor 100, the memory 200, the sensor 300, the wireless transmitter 400, the locator 500 and the like of the locator; the standby battery 101 is used for supplying power to the display screen 201, the standby battery 101 can be a button battery, and the display screen 201 is an ultra-low power consumption display screen 201, such as an electronic ink screen and a flexible display screen 201. In this embodiment, the power manager 700 of the positioner constantly monitors the power of the main battery 800, and transmits the power information of the main battery 800 to the processor 100 for further processing.

In the first determination unit 2, the preset value may range from 1% to 10% of the total electric quantity of the main battery 800, and specifically, the preset value may be set to one of 2%, 3%, 4%, 5%, and the like of the total electric quantity of the main battery 800, and is set according to actual needs. The memory 200 may be pre-stored with a minimum electric quantity threshold, and the processor 100 processes the electric quantity information according to the electric quantity information of the main battery 800 detected by the power supply tube, and then compares the processed electric quantity information with the minimum electric quantity threshold in the memory 200 to determine whether the electric quantity of the main battery 800 at this time is lower than the minimum electric quantity threshold.

In the first control unit 3, after detecting that the power of the main battery 800 is lower than the preset minimum power threshold in the memory 200, the processor 100 generates an instruction to the power manager 700, the power manager 700 cuts off the power supply of the main battery 800 to the positioner 500, the positioner is automatically turned off, and the backup battery 101 is turned on.

Referring to fig. 9, the backup battery activation apparatus further includes:

a first obtaining unit 4, configured to obtain first current location information of a pet;

the second judging unit 5 is configured to judge whether the first current location information matches with the user preset location information;

the first generating unit 6 is configured to generate execution information if the first current location information is not matched with the user preset location information, where the execution information includes a power-off instruction and a start instruction;

and the first execution unit 7 is used for closing the positioner according to the power-off instruction and starting the standby battery according to the starting instruction.

In the first obtaining unit 4, the second determining unit 5, the first generating unit 6 and the first executing unit 7, the locator 500 and/or the WIFI/BT module 402 collects current location information of the pet, where the current location information includes satellite location information and/or network location information, where the network location information includes WIFI location information, base station location information, and the like. The user preset position information comprises a position where the pet is frequently kept (such as a home) and/or a position where the pet appears in history (such as a park near the home), the user preset position information is stored in the memory 200 in advance, in daily outdoor activities, the locator also transmits the outdoor activity position information of the pet to the processor 100, and the processor 100 stores the outdoor activity position information into the memory 200 and establishes a position information database together with the user preset position information; the processor 100 compares the acquired current pet position information with the position information in the position information database, so as to confirm whether the pet is currently in a lost state in time, and facilitate the pet owner to take treatment measures in time. When the comparison is not matched, the processor 100 generates a power-off command for controlling the positioner 500 to turn off and a power-on command for turning on the backup battery 101, so that the power manager 700 turns off the positioner 500 and turns on the backup battery 101 according to the power-off command and the power-on command.

Referring to fig. 10, the execution information further includes low power information, and the standby battery activation apparatus further includes:

and a first sending unit 8, configured to send the first current location information and the low power information to a server or a terminal.

In the first transmitting unit 8, after the positioner 500 is turned off, the main battery 800 continues to supply power to other components of the pet smart device; the terminals can be one of a smart phone, a tablet personal computer and a computer, the terminals are in communication connection with the pet intelligent device through the server, and after the server receives the current position information, the current position information is forwarded to devices which can be checked by pet owners such as the smart phone, the tablet personal computer or the computer in communication connection with the computer. In this embodiment, the first current position information refers to a real-time position of the pet before the power-off of the locator 500, i.e., a last position of the pet before the pet is lost; the low battery information is the real-time battery level of the main battery 800 monitored by the power manager 700. The first current position information and the low power information are sent to the corresponding server or terminal, so that a pet owner can quickly know the position of the pet and the power consumption of the main battery 800 of the pet intelligent device is exhausted, the pet owner can conveniently take corresponding treatment measures in time, and the pet can be found back in time.

Referring to fig. 11, the backup battery activation apparatus further includes:

a second obtaining unit 9, configured to obtain second current location information of the pet;

a third judging unit 10, configured to judge whether the second current position of the pet exceeds an electronic fence preset by the user;

and the first starting unit 11 is used for starting the positioner to position if the second current position exceeds the electronic fence preset by the user.

In the second obtaining unit 9, the third determining unit 10, and the first starting unit 11, the second current location information indicates a real-time location of the pet, which is collected by the locator 500, and the electronic fence indicates an area covering the electronic signal, the electronic fence in this embodiment may be a bluetooth electronic fence or a WIFI electronic fence, a pet owner may set the electronic fence through a mobile phone or a home WIFI, a coverage area of the electronic fence may be within a diameter range of 100 meters around the mobile phone or the home WIFI, or may be 200 meters, 300 meters, and the like, and may be set according to actual needs. When the pet is in the electronic fence, the pet is controlled by the pet owner no matter whether the electric quantity of the main battery is lower than a preset value or not; when it is detected that the current position of the pet exceeds the range of the electronic fence, which indicates that the pet is out of the control of the pet owner, the pet may be lost, then the locator 500 is activated to monitor the real-time position of the pet, and the step S2 is performed.

Referring to fig. 12, the backup battery activation device includes:

and a second transmitting unit 12 for transmitting the second current location information of the pet to the server or the terminal.

In the second sending unit 12, the terminal may be one of a smart phone, a tablet computer, and a computer, and the terminal and the pet smart device establish a communication connection through the server. In this embodiment, the terminal is a mobile phone, after the locator 500 is started to monitor the second current position information of the pet, the wireless transmitter 400 sends the second current position information of the pet to the server, and the server sends the second current position information to the mobile phone, so that the pet owner can know the current real-time position of the pet from the mobile phone, and when the pet owner feels that the current real-time position of the pet is separated from the control of the pet owner, the pet owner can take corresponding measures to find the pet back, so as to prevent the pet from being lost and lost after the electric quantity of the locator main battery 800 is exhausted.

Referring to fig. 13, the backup battery activation apparatus further includes:

and the first switching unit 13 is used for switching the standby battery to supply power to the display screen.

In the first switching unit 13, the power manager 700 controls the main battery 800 to cut off the power supply to the positioner 500, the positioner 500 is turned off, and the power manager 700 controls the backup battery 101 to start supplying power to the display screen 201.

Referring to fig. 13, the backup battery activation apparatus further includes:

and the first display unit 14 is used for displaying the pre-stored pet owner information on the display screen.

In the first display unit 14, the pet owner information includes identity information (such as name, sex, etc.), telephone information, home location, etc., and the pet owner information may be stored in the memory 200 in advance, and after the standby battery 101 supplies power to the display screen 201, the processor 100 will extract the pet owner information from the memory 200, and after the information is processed by the microprocessor 900, the pet owner information is finally displayed by the display screen 201, so that when the pet is lost, a loved person can obtain the relevant information of the pet owner from the display screen 201 in time, and contact the pet owner in time, thereby helping the pet owner to find the pet.

Referring to fig. 13, the backup battery activation apparatus further includes:

a fourth judging unit 15 for monitoring whether the electric quantity of the main battery is zero;

and a first termination unit 16, configured to stop sending information to the server or the terminal if the electric quantity of the main battery is zero.

In the fourth determination unit 15 and the first termination unit 16, the power manager 700 continuously monitors the electric quantity of the main battery 800, when the electric quantity of the main battery 800 is monitored to be zero, that is, the electric quantity of the main battery 800 is exhausted, most parts of the pet smart device stop operating and enter a sleep state, and the standby battery 101 only supplies power to the processor 100, the memory 200 and the display screen 201, so that the display screen 201 continuously displays the owner information of the pet; because most parts of the pet intelligent device stop operating, relevant information does not occur to the server or the terminal any more, the relevant information comprises first current position information, low power information, second current position information and the like, a pet owner loses control over the pet at the moment and can only find the pet with the help of lovers.

The standby battery starting device of the embodiment starts the standby battery 101 to supply power to the display screen 201 when the electric quantity of the main battery 800 of the positioner is exhausted, the display screen 201 displays the information of the pet owner, and people with great heartedness near the lost pet can assist the pet owner to timely find back the lost pet according to the information of the pet owner displayed by the display screen 201, so that a convenient way for finding back the lost pet is provided for the pet owner.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. A method for enabling a backup battery, comprising:

monitoring the electric quantity of the main battery;

judging whether the electric quantity of the main battery is lower than a preset value;

if yes, the positioner is closed and the standby battery is started;

before the step of turning off the positioner and starting the backup battery, the method comprises the following steps:

acquiring first current position information of a pet;

judging whether the first current position information is matched with user preset position information or not;

if not, generating execution information, wherein the execution information comprises a power-off instruction and a starting instruction;

and closing the positioner according to the power-off instruction, and starting the standby battery according to the starting instruction.

2. The method of claim 1, wherein the execution information further includes low battery information, and wherein the steps of turning off the positioner according to the power-off command and turning on the battery backup according to the power-on command are followed by:

and sending the first current position information and the low power information to a server or a terminal.

3. The method of claim 1, wherein the step of determining whether the main battery charge is lower than a predetermined value comprises:

acquiring second current position information of the pet;

judging whether the second current position of the pet exceeds an electronic fence preset by a user or not;

and if so, starting the positioner to position.

4. The method of claim 3, wherein if yes, the step of turning off the positioner and turning on the backup battery is followed by the steps of:

and switching the standby battery to supply power to the display screen.

5. A battery backup activation device, comprising:

the first monitoring unit is used for detecting the electric quantity of the main battery;

the first judgment unit is used for judging whether the electric quantity of the main battery is lower than a preset value;

the first control unit is used for closing the positioner and starting the standby battery if the electric quantity of the main battery is lower than a preset value;

further comprising:

the pet positioning device comprises a first acquisition unit, a second acquisition unit and a control unit, wherein the first acquisition unit is used for acquiring first current position information of a pet;

the second judging unit is used for judging whether the first current position information is matched with the preset position information of the user;

the first generating unit is used for generating execution information if the first current position information is not matched with the preset position information of the user, wherein the execution information comprises a power-off instruction and a starting instruction;

and the first execution unit is used for closing the positioner according to the power-off instruction and starting the standby battery according to the starting instruction.

6. The battery backup activation device according to claim 5, wherein the execution information further comprises low battery information, the battery backup activation device further comprising:

and the first sending unit is used for sending the first current position information and the low power information to a server or a terminal.

7. The backup battery activation device according to claim 5, further comprising:

the second acquisition unit is used for acquiring second current position information of the pet;

the third judging unit is used for judging whether the second current position of the pet exceeds the electronic fence preset by the user or not;

and the first starting unit is used for starting the positioner to position if the second current position exceeds the electronic fence preset by the user.

8. The backup battery activation device according to claim 7, further comprising:

and the first switching unit is used for switching the standby battery to supply power to the display screen.

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