CN212904974U - Low-power consumption pet motion monitoring and positioning device - Google Patents

Abstract

The utility model discloses a low-power consumption pet motion monitoring and positioning device, which comprises a shell, wherein a processing module, a positioning module, an acceleration module, a communication module and a power module are arranged in the shell; the processing module is used for enabling the pet movement monitoring and positioning device to operate in a corresponding operation mode according to the instruction of the client; the operation mode includes a standby mode and a tracking mode. The device has the characteristics of low energy consumption, long standby time and the like, and can open/close the positioning module as required, ensure the accuracy and stability in the working process and really achieve an ultra-low power consumption and an ultra-long working mode. Each link of the device can be tightly connected with the client, accurate positioning information and motion amount information can be fed back in time, and the control is convenient and simple.

Description

Low-power consumption pet motion monitoring and positioning device

Technical Field

The utility model belongs to the electronic equipment field for the pet, concretely relates to pet motion monitoring and positioner.

Background

When the pet at home goes out with the owner, the special emergency that the pet is lost can be generated. Therefore, a monitoring and positioning device which is small and convenient to be arranged on the body of a pet is needed. Such devices are required to be as small as possible and to be easy to install and carry.

The existing pet locator is generally a portable device, and is powered by a battery or a battery and a solar panel for supplying power. However, some working scenes do not always have sunlight, electric energy cannot be supplemented through the solar cell panel, and once the pet loses power due to long-term loss of time, the positioning tracking of the pet cannot be realized.

At present, a moving object positioning device on the market usually adopts a continuous monitoring mode, does not consider the instant motion state of a tracked animal, and only obtains position information in real time, so that the positioning device has high energy consumption and low utilization rate of returned information, cannot run for a long time in a storage battery power supply scene, needs to be frequently taken off for charging and maintenance, and is poor in convenience; and current animal positioner realizes fixing a position usually through setting up GPS locater and attitude sensor, and the locating information reliability that obtains is low, and the precision is low, can not guarantee all can transmit back accurate positional information constantly, and is inefficient.

Therefore, a pet movement monitoring and positioning device is needed to accurately record position information and movement amount information and simultaneously work with low power consumption so as to ensure that the device works for a long time and continuously transmits data back to a client.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a small and exquisite low-power consumption pet motion monitoring and positioner. The device has small volume, simple operation, and the installation is used promptly, and the quality is light and handy, and the animal is dressed conveniently, and the advantage that is difficult for dropping can not disturb pet and people's normal exchange. In addition, the device also has the characteristics of low energy consumption, long standby time and the like, and the positioning module is turned on/off as required, so that the accuracy and the stability in the working process are ensured, and the ultra-low power consumption and the ultra-long working mode can be really achieved. Each link of the device can be tightly connected with the client, accurate positioning information and motion amount information can be fed back in time, and the control is convenient and simple. The received data are integrated through the client cloud platform, and data visualization is achieved in an all-round mode.

A low-power consumption pet motion monitoring and positioning device, comprising:

the device comprises a shell, a positioning module, an acceleration module, a communication module and a power module, wherein the processing module, the positioning module, the acceleration module, the communication module and the power module are arranged in the shell; the processing module, the positioning module, the acceleration module, the communication module and the power supply module are electrically connected; one side of the shell is provided with a contact for charging;

the shell is sleeved with a silica gel sleeve, and the silica gel sleeve is provided with a fixing hole and is used for installing a fixing belt so as to wear the motion monitoring and positioning device of the utility model on an animal body to be monitored;

the positioning module is used for acquiring the position information of the monitored animal and transmitting the position information to the processing module;

the acceleration module is used for acquiring the motion amount information of the monitored animal and transmitting the motion amount information to the processing module, wherein the motion amount information comprises whether the monitored animal moves and the movement distance of the monitored animal;

the communication module is used for communicating with the client according to a communication protocol to realize a data transceiving function;

the power module comprises a power supply and a battery charging and discharging management module; the power supply is electrically connected with the battery charging and discharging management module, and the contact is electrically connected with the battery charging and discharging management module;

the processing module is used for enabling the pet motion monitoring and positioning device to operate in a corresponding operation mode according to the instruction of the client; judging whether the information exceeds a preset numerical value according to the information sent by the positioning and communication module and the acceleration module, and starting the corresponding module;

the operation mode comprises a standby mode and a tracking mode;

when the mobile terminal operates in a standby mode, sending heartbeat packets to a client at preset first time intervals;

when the tracking system operates in a tracking mode, starting an acceleration module, collecting the motion amount of the monitored animal at intervals of a preset second time, sending the motion amount to a processing module, judging the received motion amount by the processing module according to preset information, activating a positioning module to obtain the position of the monitored animal, and uploading the current position to a client through a communication module; the communication module receives an estimated movement route obtained by a client according to position estimation sent by the pet movement monitoring and positioning device and sends the estimated movement route to the processing module, and the positioning module collects the position of a monitored animal at preset time intervals and sends the position to the processing module; the processing module compares the collected position information with the estimated movement route, if the movement position of the monitored animal is different from the estimated movement route, the monitored animal does not move according to the estimated movement route, and the processing module continues to collect and upload the position information obtained by the positioning module and the movement amount information obtained by the acceleration module to the client at preset time intervals until the position information conforms to the estimated movement route; and then the processing module judges the exercise amount information acquired by the acceleration module, if the exercise amount information is 0, the exercise amount information of the monitored animal is continuously sent within the preset time, the positioning module is closed after the exercise amount information is transmitted to the client through the communication module, the acceleration module continues to work, and the communication module sends heartbeat packets at intervals of a preset second time.

Further, the first time is greater than the second time.

Further, when the tracking device operates in the tracking mode, the processing module judges the received amount of exercise according to preset information, activates the positioning module to acquire the position of the monitored animal, and specifically includes:

the communication module receives the positioning precision sent by the client and sends the positioning precision to the processing module, the processing module judges the received amount of exercise, and if the received amount of exercise information is greater than the positioning precision, the positioning module is activated to obtain the position of the monitored animal.

Further, when the tracking device operates in the tracking mode, the processing module judges the received amount of exercise according to preset information, activates the positioning module to acquire the position of the monitored animal, and specifically includes:

the processing module judges the received motion amount, and if the motion amount is larger than 0, the positioning module is activated to acquire the position of the monitored animal.

Further, the shell comprises an upper cover and a lower cover, and the upper cover and the lower cover are connected in a buckling or sliding mode. Alternatively, the upper cover and the lower cover may be connected by other means, such as simply pressing the lower cover against the edge of the upper cover.

Furthermore, a magnetic attraction interface is further arranged on the shell on the same side as the contact, and the battery charging and discharging management module is a magnetic attraction charger corresponding to the magnetic attraction interface.

The heartbeat packet mentioned above refers to: the pet motion monitoring and positioning device regularly sends simple information to the client to tell the client that the pet motion monitoring and positioning device is still, does not contain any actual information, and can be simple information or an empty packet only containing a packet header.

When the device runs in the standby mode, the acceleration module and the positioning module of the device are not started, and only the communication module sends heartbeat packets to the client regularly.

When the tracking mode is operated, only the acceleration module is started, and only after the processing module judges according to preset information, whether the positioning module is activated or not is determined according to a judgment result; after the positioning module is activated, the acceleration module and the positioning module work together at the moment, the exercise amount information of the preset time is continuously sent until the exercise amount acquired by the acceleration module is 0, then the positioning module is closed, and the acceleration module continues to work.

Compared with the prior art, the utility model discloses a beneficial effect that technical scheme brought is:

1. the device of the utility model has low energy consumption, the positioning module is opened/closed as required, the standby time is long, the accuracy and stability in the working process are ensured, and the ultra-low power consumption and the ultra-long working mode can be achieved in the true sense;

2. each link of the device of the utility model can be closely connected with the client, so as to feed back accurate positioning information and motion amount information in time, and the control is convenient and simple; the received data are integrated through the client cloud platform, and data visualization is achieved in an all-round mode.

3. The device on the one hand can be used as the monitoring and the positioner of animal, also be exquisite ornament, can not hinder the daily motion of animal, the quality is light and handy.

Drawings

FIG. 1 is a flow chart of the operation of the low power consumption pet exercise monitoring and positioning device of the present invention;

fig. 2 is a perspective view of the low power consumption pet exercise monitoring and positioning device of the present invention.

Wherein:

1: contact 2: magnetic attraction butt joint

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments, which are only illustrative and not intended to limit the present invention.

As shown in fig. 2, a low power consumption pet exercise monitoring and positioning device includes:

the device comprises a shell, a positioning module, an acceleration module, a communication module and a power module, wherein the processing module, the positioning module, the acceleration module, the communication module and the power module are arranged in the shell; the processing module, the positioning module, the acceleration module, the communication module and the power supply module are electrically connected; one side of the shell is provided with a contact for charging; a shell overcoat silica gel cover, the silica gel cover is provided with the fixed orifices for thereby the installation fixed band will motion monitoring and positioner wear and wait to monitor the animal on one's body. Optionally, a magnetic attraction interface is further disposed on the housing on the same side as the contact, and when the magnetic attraction interface is disposed, the battery charging and discharging management module is a magnetic attraction charger corresponding to the magnetic attraction interface. The shell comprises an upper cover and a lower cover, and the upper cover and the lower cover are connected in a buckling or sliding mode. Alternatively, the upper cover and the lower cover may be connected by other means, such as simply pressing the lower cover against the edge of the upper cover.

And the positioning module is used for acquiring the position information of the monitored animal and transmitting the position information to the processing module. The orientation module in this embodiment adopts the GPS location, also can adopt big dipper positioner, basic station location etc. or through Wifi, communications facilities such as bluetooth carry out the location of monitored animals.

The acceleration module is used for acquiring the motion amount information of the monitored animal and transmitting the motion amount information to the processing module, the motion amount information comprises whether the monitored animal moves and the motion distance of the monitored animal, the motion distance is monitored, namely the motion step number of the monitored animal is counted, which is equivalent to counting the walking steps of the monitored animal, and the processing module is used for judging whether the motion amount exceeds the preset positioning precision.

And the communication module is used for communicating with the client according to a communication protocol to realize a data transceiving function. The communication module in this embodiment communicates with the client by using china mobile 5531. The communication module and the client can also realize wireless transmission through devices such as a GPS, a Wifi device, a Bluetooth device and the like. Optionally, the communication module adopts a commercially available N10SG wireless communication module, and the positioning module GPS is integrated therein, which is beneficial to reducing the size of the device and saving the cost.

The power module comprises a power supply and a battery charging and discharging management module; the utility model discloses a commercial XT2059 is as the linear charging chip of 3.6V lithium cell. If the ultra-low power consumption power module is adopted, the low power consumption effect can be achieved.

The processing module is used for enabling the pet motion monitoring and positioning device to operate in a corresponding operation mode according to the instruction of the client; and judging whether the information exceeds a preset numerical value according to the information sent by the positioning module and the acceleration module, and starting the corresponding module.

Fig. 1 shows a working flow chart of a pet exercise monitoring and positioning device, which has two operation modes, namely a standby mode and a tracking mode. Wherein the standby mode is adapted for use when the monitored animal is in a residence or within a user-controlled range; the tracking mode is adapted to be initiated when the monitored animal leaves the user or leaves the dwelling.

During the use, the user wears pet motion monitoring and positioner by monitoring animal health (the utility model discloses especially be fit for wearing back in pet neck department), equipment is in standby mode, and the processing mode only regularly sends the heartbeat package to the customer end.

When a user goes out with a pet, the user selects a tracking starting mode at a client, then a positioning accuracy value is input at the client, the range of 50-150m is optimized, after 50m is input, the processing module receives an instruction of operating in the accuracy tracking mode, the acceleration module is started, the motion quantity of a monitored animal is collected at intervals of a preset second time and is sent to the processing module, the second time is less than the first time, and when the first time is preset to be 1h, the second time is preset to be 20 min. The communication module receives the positioning accuracy of 50m sent by the client and sends the positioning accuracy to the processing module, the processing module judges the received motion amount, if the received motion amount information is less than or equal to the positioning accuracy of 50m, the monitored animal is proved to be in a controllable range, the motion amount judgment cycle is continuously executed until the received motion amount information is greater than the positioning accuracy of 50m, the positioning module is activated to obtain the position of the monitored animal, and the current position is uploaded to the client through the communication module. Optionally, the user may also directly perform a real-time tracking mode without inputting the positioning accuracy, that is, the processing module determines the received motion amount information, if the motion amount is greater than 0, it is verified that the monitored animal is in a motion state, the positioning module is activated to obtain the position of the monitored animal, and the current position is uploaded to the client through the communication module.

The client estimates the route of the monitored animal according to the received position information and a deep learning algorithm and a historical route to obtain an estimated movement route, the estimated movement route obtained through analysis is displayed on a visual interface of the client and is simultaneously transmitted to a pet movement monitoring and positioning device, the communication module receives the estimated movement route and transmits the estimated movement route to the processing module, and the positioning module collects the position of the monitored animal every preset time, such as 10min, and transmits the position to the processing module; the processing module compares the collected position information with the estimated movement route, if the movement position of the monitored animal is different from the estimated movement route, the monitored animal does not move according to the estimated movement route, the position information acquired by the positioning module and the movement amount information acquired by the acceleration module are collected and uploaded to the client at intervals of preset 10min until the position information conforms to the estimated movement route; and then the processing module judges the exercise amount information acquired by the acceleration module, if the exercise amount information is 0, the monitored animal is shown to have a rest in a controllable range, in order to ensure the stable state of the monitored animal, the device continuously sends the exercise amount information of the monitored animal within 30 minutes, and the exercise amount information is transmitted to the client through the communication module, then the positioning module is closed, so that the electric energy is saved, only the acceleration module continues to work, and the communication module sends heartbeat packets at a preset second time interval.

Although the functions and operations of the present invention have been described above with reference to the drawings, the present invention is not limited to the specific functions and operations described above, and the above embodiments are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the scope of the present invention, which is intended to be protected by the present invention.

Claims (8)

1. A low power consumption pet motion monitoring and positioning device, the device comprising:

the device comprises a shell, a positioning module, an acceleration module, a communication module and a power module, wherein the processing module, the positioning module, the acceleration module, the communication module and the power module are arranged in the shell; the processing module, the positioning module, the acceleration module, the communication module and the power supply module are electrically connected; one side of the shell is provided with a contact for charging;

the positioning module is used for acquiring the position information of the monitored animal and transmitting the position information to the processing module;

the acceleration module is used for acquiring the motion amount information of the monitored animal and transmitting the motion amount information to the processing module, wherein the motion amount information comprises whether the monitored animal moves and the movement distance of the monitored animal;

the communication module is used for communicating with the client according to a communication protocol to realize a data transceiving function;

the power module comprises a power supply and a battery charging and discharging management module; the power supply is electrically connected with the battery charging and discharging management module, and the contact is electrically connected with the battery charging and discharging management module;

the processing module is used for enabling the pet movement monitoring and positioning device to operate in a corresponding operation mode according to the instruction of the client; and judging whether the information exceeds a preset numerical value according to the information sent by the positioning module and the acceleration module, and starting the corresponding module.

2. The low power consumption pet motion monitoring and positioning device of claim 1, wherein: the operation mode of the processing module comprises a standby mode and a tracking mode;

when the mobile terminal operates in a standby mode, sending heartbeat packets to a client at preset first time intervals;

when the tracking system operates in a tracking mode, starting an acceleration module, collecting the motion amount of the monitored animal at intervals of a preset second time, sending the motion amount to a processing module, judging the received motion amount by the processing module according to preset information, activating a positioning module to obtain the position of the monitored animal, and uploading the current position to a client through a communication module; the communication module receives an estimated movement route obtained by a client according to position estimation sent by the pet movement monitoring and positioning device and sends the estimated movement route to the processing module, and the positioning module collects the position of a monitored animal at preset time intervals and sends the position to the processing module; the processing module compares the collected position information with the estimated movement route, if the movement position of the monitored animal is different from the estimated movement route, the monitored animal does not move according to the estimated movement route, and the processing module continues to collect and upload the position information obtained by the positioning module and the movement amount information obtained by the acceleration module to the client at preset time intervals until the position information conforms to the estimated movement route; and then the processing module judges the exercise amount information acquired by the acceleration module, if the exercise amount information is 0, the exercise amount information of the monitored animal is continuously sent within the preset time, the positioning module is closed after the exercise amount information is transmitted to the client through the communication module, the acceleration module continues to work, and the communication module sends heartbeat packets at intervals of a preset second time.

3. The low power pet motion monitoring and locating device of claim 2, wherein the first time is greater than the second time.

4. The low power consumption pet athletic monitoring and locating device of claim 2, wherein when operating in the tracking mode, the processing module determines the amount of received motion based on the predetermined information and activates the locating module to obtain the location of the monitored animal, and specifically includes:

the communication module receives the positioning precision sent by the client and sends the positioning precision to the processing module, the processing module judges the received amount of exercise, and if the received amount of exercise information is greater than the positioning precision, the positioning module is activated to obtain the position of the monitored animal.

5. The low power consumption pet athletic monitoring and locating device of claim 2, wherein when operating in the tracking mode, the processing module determines the amount of received motion based on the predetermined information and activates the locating module to obtain the location of the monitored animal, and specifically includes:

the processing module judges the received motion amount, and if the motion amount is larger than 0, the positioning module is activated to acquire the position of the monitored animal.

6. The pet athletic monitoring and positioning device of claim 1, wherein the housing encloses a silicone sleeve, the silicone sleeve having fastening holes for attaching fastening straps to wear the athletic monitoring and positioning device on the animal to be monitored.

7. The low power pet athletic monitoring and positioning device of claim 1, wherein the housing includes an upper cover and a lower cover, the upper cover and the lower cover being snap-fit or slip-fit.

8. The low-power pet exercise monitoring and positioning device of claim 1 or 2, wherein a magnetic attraction interface is further disposed on the housing on the same side as the contact, and the battery charging and discharging management module is a magnetic attraction charger corresponding to the magnetic attraction interface.

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