CN206075280U - A kind of wearable device - Google Patents

Abstract

The utility model provides a kind of wearable device, and wearable device includes：Main control chip, and the light sensor that is connected with main control chip and motion sensor, light sensor collection light intensity information are sent to main control chip；When main control chip judges that wearable device user is located at outdoor according to the light intensity information of collection, the activity data of motion sensor collection wearable device user is triggered as outdoor activities data.

Description

Wearable equipment

Technical Field

The utility model relates to a wearable equipment technical field, in particular to a wearable equipment for detecting outdoor activities.

Background

A wearable device is a portable device that is worn directly on the body or integrated into the clothing or accessories of the user. Wearable equipment exists in the form of portable accessories that possess partial calculation function, joinable cell-phone and all kinds of terminals mostly, mainly includes intelligent wrist-watch, intelligent glasses, intelligent sports shoes etc.. Among them, smart glasses focus on various applications related to augmented reality, while smart watches and smart sports shoes focus on encouraging people to participate in sports.

In recent years, with the health concern of people, sports wearable devices are more and more concerned by people and become the most popular product type at present. The wearable device of operation type has the motion monitoring function, for example meter step function, through monitoring user's motion data volume, encourages people to participate in the motion of benefiting health.

The outdoor activity has positive effects on preventing myopia and obesity of children and enhancing the health indexes of adults and old people. However, the detection of user motion by current athletic wearable devices does not distinguish between indoor or outdoor activities, nor does it separately count the motion data for both types of activities.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a wearable equipment can detect and distinguish outdoor exercises and indoor exercises to gather outdoor exercises data.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a wearable device, this wearable device includes master control chip and the motion sensor who links to each other with master control chip, and this wearable device still includes: the light sensor is positioned on the outer surface of the wearable device and used for collecting light intensity information without a barrier;

the light sensor is connected with the main control chip and sends the collected light intensity information to the main control chip;

the main control chip triggers the motion sensor to acquire activity data of the wearable device user as outdoor activity data when the wearable device user is judged to be located outdoors according to the light intensity information acquired by the light sensor.

Another kind of wearable equipment, this wearable equipment includes main control chip and the motion sensor and the communication module that link to each other with main control chip, and wearable equipment still includes: the light sensor is positioned on the outer surface of the wearable device and used for collecting light intensity information without a barrier;

the light sensor is connected with the main control chip and sends the collected light intensity information to the main control chip;

the main control chip sends the light intensity information collected by the light sensor to the server through the communication module, and receives a first judgment result of the server, wherein the first judgment result is obtained by judging whether the wearable device user is located outdoors or not according to the light intensity information collected by the light sensor and then returns to the communication module; and when the first judgment result shows that the wearable device user is located outdoors, triggering the motion sensor to acquire the activity data of the wearable device user as outdoor activity data.

According to the above technical scheme, the utility model discloses in, through configuration optical line sensors in wearable equipment, utilize optical line sensors to gather light intensity information, when judging that the user is located the open air according to light intensity information, gather user's activity data as outdoor activities data.

Drawings

Fig. 1 is a schematic structural diagram of a wearable device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a second wearable device according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the technical solutions of the present invention are described in detail below with reference to the accompanying drawings according to the embodiments.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a wearable device 100 according to an embodiment of the present invention, and as shown in fig. 1, the wearable device includes a main control chip and a motion sensor connected to the main control chip, and further includes: the light sensor is positioned on the outer surface of the wearable device and used for collecting light intensity information without a barrier; wherein,

the light sensor is connected with the main control chip and sends the collected light intensity information to the main control chip;

the main control chip triggers the motion sensor to acquire the activity data of the wearable device user as outdoor activity data when judging that the wearable device user is located outdoors according to the light intensity information acquired by the light sensor.

In an embodiment of the present invention, the wearable device shown in fig. 1 further includes a GPS chip for collecting GPS signal strength information, and the GPS chip is connected to the main control chip;

the main control chip judges whether the wearable equipment user is located outdoors or not according to the light intensity information collected by the light sensor, further judges whether the light intensity information collected by the light sensor is abnormal or not, normally judges whether the wearable equipment user is located outdoors or not according to the light intensity information collected by the light sensor, triggers the GPS chip to collect GPS signal intensity information if the wearable equipment user is abnormal, and triggers the motion sensor to collect the motion data of the user as outdoor motion data when the wearable equipment user is judged to be located outdoors according to the GPS signal intensity information collected and sent by the GPS chip.

In an embodiment of the present invention, the wearable device shown in fig. 1 further includes a storage module connected to the main control chip, and storing a preset correspondence between time information, weather information, location information, and light intensity;

the main control chip is used for receiving the light intensity information sent by the light sensor and also acquiring current time information and weather information;

the main control chip is used for judging whether the light intensity information collected by the light sensor is abnormal or not: according to the current time information, the weather information and the light intensity information collected by the light sensor, the position information of the wearable device is searched in a preset corresponding relation table among the time information, the weather information, the position information and the light intensity information, if the position information is searched, the light intensity information collected by the light sensor is determined to be normal, whether the wearable device is located outdoors is judged based on the position information of the wearable device, and otherwise, the light intensity information collected by the light sensor is determined to be abnormal.

In one embodiment of the present invention,

the wearable device further comprises a communication module connected to the main control chip (such non-integrated architecture is not shown in fig. 1, and an architecture in which the communication module and the CPU are integrated in the main control chip is shown in fig. 1);

the main control chip triggers the communication module to request the server to acquire the current time information and weather information;

or,

the main control chip integrates a CPU and a communication module, and the CPU integrated in the main control chip triggers the communication module to request the server to acquire the current time information and weather information.

In an embodiment of the invention, the wearable device further comprises a storage module connected with the main control chip, and the storage module stores a preset corresponding relation between the position information and the GPS signal strength information;

the main control chip searches the position information of the wearable device in the corresponding relation between the preset position information and the GPS signal strength information according to the GPS signal strength information collected by the GPS chip, and judges whether the wearable device is located outdoors based on the position information of the wearable device.

In one embodiment of the present invention,

the GPS chip acquires the signal intensity of each scanned satellite;

the main control chip takes the sum, the arithmetic mean or the weighted mean of the signal intensities of all the satellites scanned by the GPS chip as the acquired GPS signal intensity information;

or,

the GPS chip acquires the signal intensity of each satellite for positioning;

the main control chip takes the sum, the arithmetic mean or the weighted mean of the signal intensities of all the satellites used for positioning as the acquired GPS signal intensity information;

or,

the GPS chip acquires the number of satellites for positioning;

and the main control chip takes the number of the satellites for positioning as the acquired GPS signal intensity information.

In an embodiment of the present invention, the main control chip is a system on a chip SoC chip; the communication module is a baseband processing chip.

In addition, still include other functional modules that link to each other with main control chip in the wearable equipment shown in fig. 1, for example power module, input/output module, display module, wifi module etc. because not the utility model discloses a focus does not give detailed description.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a second wearable device 200 according to an embodiment of the present invention, and as shown in fig. 2, the wearable device includes a main control chip, and a motion sensor and a communication module connected to the main control chip, and in addition, the wearable device further includes: the light sensor is positioned on the outer surface of the wearable device and used for collecting light intensity information without a barrier; wherein,

the light sensor is connected with the main control chip and sends the collected light intensity information to the main control chip;

the main control chip is used for sending the light intensity information collected by the light sensor to the server through the communication module (namely, the light intensity information collected by the light sensor is sent to the communication module, and the communication module sends the light intensity information to the server), receiving a first judgment result of whether the user of the wearable device is located outdoors and then returning the wearable device to the communication module according to the light intensity information collected by the light sensor by the server (the server returns the first judgment result to the communication module in the wearable device, and the communication module sends the first judgment result to the main control chip); and when the first judgment result shows that the wearable device user is located outdoors, triggering the motion sensor to acquire the activity data of the wearable device user as outdoor activity data.

In one embodiment of the invention, the wearable device shown in fig. 2 further comprises: the GPS chip is connected with the main control chip;

the main control chip triggers the GPS chip to collect and send the GPS signal intensity information when the first judgment result shows that the light intensity information collected by the light sensor is abnormal, the GPS signal intensity information collected by the GPS chip is sent to the server through the communication module, and the second judgment result returned to the communication module after the server judges whether the wearable device user is located outdoors according to the GPS signal intensity information collected by the GPS chip is received (the server returns the second judgment result to the communication module in the wearable device, and the communication module sends the first judgment result to the main control chip); and when the second judgment result shows that the wearable device user is located outdoors, triggering the motion sensor to acquire the activity data of the wearable device user as outdoor activity data.

In one embodiment of the present invention,

the GPS chip acquires the signal intensity of each scanned satellite;

the main control chip takes the signal intensity sum, the arithmetic mean value or the weighted mean value of all the satellites acquired and scanned by the GPS chip as the acquired GPS signal intensity information;

or,

the GPS chip is used for acquiring the signal intensity of each satellite for positioning;

the main control chip takes the sum, the arithmetic mean or the weighted mean of the signal intensities of all the satellites used for positioning as the acquired GPS signal intensity information;

or,

the GPS chip acquires the number of satellites for positioning;

and the main control chip takes the number of the satellites for positioning as the acquired GPS signal intensity information.

In addition, still include other functional modules that link to each other with main control chip in the wearable equipment shown in fig. 1, for example power module, input/output module, display module, wifi module etc. because not the utility model discloses a focus does not give detailed description.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a wearable equipment, this wearable equipment includes main control chip and the motion sensor who links to each other with main control chip, its characterized in that, this wearable equipment still includes: the light sensor is positioned on the outer surface of the wearable device and used for collecting light intensity information without a barrier;

the light sensor is connected with the main control chip and sends the collected light intensity information to the main control chip;

the main control chip triggers the motion sensor to acquire activity data of the wearable device user as outdoor activity data when the wearable device user is judged to be located outdoors according to the light intensity information acquired by the light sensor.

2. The wearable device of claim 1, further comprising a GPS chip for collecting GPS signal strength information, the GPS chip being connected to the main control chip;

the main control chip judges whether the wearable equipment user is located outdoors or not according to the light intensity information collected by the light sensor, further judges whether the light intensity information collected by the light sensor is abnormal or not, normally judges whether the wearable equipment user is located outdoors or not according to the light intensity information collected by the light sensor, triggers the GPS chip to collect GPS signal intensity information if the wearable equipment user is abnormal, and triggers the motion sensor to collect the motion data of the user as outdoor motion data when the wearable equipment user is judged to be located outdoors according to the GPS signal intensity information collected and sent by the GPS chip.

3. The wearable device of claim 2, further comprising a storage module connected to the main control chip for storing preset correspondence between time information, weather information, location information, and light intensity;

the main control chip is used for receiving the light intensity information sent by the light sensor and also acquiring current time information and weather information;

the main control chip is used for judging whether the light intensity information collected by the light sensor is abnormal or not: according to the current time information, the weather information and the light intensity information collected by the light sensor, the position information of the wearable device is searched in a preset corresponding relation table among the time information, the weather information, the position information and the light intensity information, if the position information is searched, the light intensity information collected by the light sensor is determined to be normal, whether the wearable device is located outdoors is judged based on the position information of the wearable device, and otherwise, the light intensity information collected by the light sensor is determined to be abnormal.

4. The wearable device of claim 2, further comprising a communication module connected to the master control chip;

the main control chip triggers the communication module to request the server to acquire the current time information and weather information;

or,

the main control chip integrates a CPU and a communication module, and the CPU integrated in the main control chip triggers the communication module to request the server to acquire the current time information and weather information.

5. The wearable device of claim 2, further comprising a storage module connected to the main control chip for storing a predetermined correspondence between the location information and the GPS signal strength information;

the main control chip searches the position information of the wearable device in the corresponding relation between the preset position information and the GPS signal strength information according to the GPS signal strength information collected by the GPS chip, and judges whether the wearable device is located outdoors based on the position information of the wearable device.

6. The wearable device of claim 5,

the GPS chip acquires the signal intensity of each scanned satellite;

the main control chip takes the sum, the arithmetic mean or the weighted mean of the signal intensities of all the satellites scanned by the GPS chip as the acquired GPS signal intensity information;

or,

the GPS chip acquires the signal intensity of each satellite for positioning;

the main control chip takes the sum, the arithmetic mean or the weighted mean of the signal intensities of all the satellites used for positioning as the acquired GPS signal intensity information;

or,

the GPS chip acquires the number of satellites for positioning;

and the main control chip takes the number of the satellites for positioning as the acquired GPS signal intensity information.

7. Wearable device according to any of claims 1-4,

the main control chip is a system on chip (SoC) chip; the communication module is a baseband processing chip.

8. The utility model provides a wearable equipment, this wearable equipment includes main control chip and the motion sensor and the communication module that link to each other with main control chip, its characterized in that, wearable equipment still includes: the light sensor is positioned on the outer surface of the wearable device and used for collecting light intensity information without a barrier;

the light sensor is connected with the main control chip and sends the collected light intensity information to the main control chip;

the main control chip sends the light intensity information collected by the light sensor to the server through the communication module, and receives a first judgment result of the server, wherein the first judgment result is obtained by judging whether the wearable device user is located outdoors or not according to the light intensity information collected by the light sensor and then returns to the communication module; and when the first judgment result shows that the wearable device user is located outdoors, triggering the motion sensor to acquire the activity data of the wearable device user as outdoor activity data.

9. The wearable device of claim 8, further comprising: the GPS chip is connected with the main control chip;

the main control chip triggers the GPS chip to collect and send the GPS signal intensity information when the first judgment result shows that the light intensity information collected by the light sensor is abnormal, the GPS signal intensity information collected by the GPS chip is sent to the server through the communication module, and the main control chip receives a second judgment result that the server judges whether the wearable device user is located outdoors or not according to the GPS signal intensity information collected by the GPS chip and then returns to the communication module; and when the second judgment result shows that the wearable device user is located outdoors, triggering the motion sensor to acquire the activity data of the wearable device user as outdoor activity data.

10. The wearable device of claim 9,

the GPS chip acquires the signal intensity of each scanned satellite;

the main control chip takes the signal intensity sum, the arithmetic mean value or the weighted mean value of all the satellites acquired and scanned by the GPS chip as the acquired GPS signal intensity information;

or,

the GPS chip is used for acquiring the signal intensity of each satellite for positioning;

the main control chip takes the sum, the arithmetic mean or the weighted mean of the signal intensities of all the satellites used for positioning as the acquired GPS signal intensity information;

or,

the GPS chip acquires the number of satellites for positioning;

and the main control chip takes the number of the satellites for positioning as the acquired GPS signal intensity information.