CN212679091U - Wearable equipment of intelligence - Google Patents

Abstract

The utility model relates to a wearable equipment of intelligence, include: the heart rate monitoring module is used for acquiring the heart rate of the user; the GPS module is used for acquiring the motion trail of the user; and the calculation module is connected to the heart rate detection module and the GPS module and acquires the motion parameters of the user according to the detected heart rate of the user and the motion trail of the user. Above wearable equipment of intelligence has rhythm of heart detection module and GPS module, can acquire user's rhythm of the heart and user's motion trail simultaneously to acquire user's motion parameter according to user's rhythm of the heart and motion trail through calculation module, thereby realize the control to user's motion parameter, motion trail and rhythm of the heart, simple and convenient. Moreover, the heart rate is directly related to the combustion efficiency of fat, so that when the intelligent wearable device is used, the amount of exercise can be adjusted according to the current heart rate and the exercise distance, and a better exercise effect can be obtained.

Description

Wearable equipment of intelligence

Technical Field

The utility model relates to a wearable equipment field of intelligence, concretely relates to wearable equipment of intelligence.

Background

All intelligent motion devices in the existing market are mainly sports watches or sports bracelets.

The existing sports watch or sports bracelet generally has the function of measuring the movement distance, but has large error and is difficult to meet the requirement of acquiring the accurate movement distance by a deep user.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wearable equipment of intelligence can acquire more accurate movement distance.

In order to solve the above technical problem, the following provides a smart wearable device, including: the heart rate monitoring module is used for acquiring the heart rate of the user; the GPS module is used for acquiring the motion trail of the user; and the calculation module is connected to the heart rate monitoring module and the GPS module and is used for acquiring the motion parameters of the user according to the detected heart rate of the user and the motion trail of the user.

Optionally, the heart rate monitoring module comprises a green light heart rate detection unit having a green light source that exits towards the user's torso.

Optionally, a green light source of the green light heart rate detection unit is disposed on a contact surface of the smart wearable device, which is in contact with the user.

Optionally, the method further includes: the pedometer is connected to the calculation module and used for the calculation module to calculate and obtain the motion parameters; the motion parameters comprise the motion speed, the heat consumed by motion and the number of motion steps.

Optionally, the method further includes: the display module is connected to the heart rate monitoring module, the GPS module and the calculation module and used for displaying the heart rate, the movement track and the movement parameters of the user, and when the display module displays the heart rate, the movement track and the movement parameters of the user, the display background is in a gem shape, and the display background in the gem shape is switched along with the heart rate range of the user.

Optionally, wearable equipment of intelligence is ring form, including the ring and set up in the flower head on ring surface, display module, rhythm of the heart monitoring module, GPS module and calculation module all set up extremely the flower head.

Optionally, the display module includes a display screen, and the display screen is set up in the flower head, set up outwards as guarding against the face.

Optionally, the method further includes: the Bluetooth module is connected to the computing module and is used for being connected with external equipment in a matching mode so as to realize data transmission between the intelligent wearable equipment and the external equipment; and the network connection module is connected to the computing module and used for connecting to the Internet so as to realize data transmission between the intelligent wearable device and the Internet.

Optionally, the method further includes: and the bone conduction module is connected to the Bluetooth module and used for playing the sound information received by the Bluetooth module.

Optionally, the method further includes: and the SOS reminding module is connected to the GPS module and the network connection module and used for generating an SOS message with user position information and transmitting the SOS message to the Internet through the network connection module.

Above wearable equipment of intelligence has rhythm of heart monitoring module and GPS module, can acquire user's rhythm of the heart and user's motion trail simultaneously to acquire user's motion parameter according to user's rhythm of the heart and motion trail through calculation module, thereby realize the control to user's motion parameter, motion trail and rhythm of the heart, simple and convenient. Moreover, the heart rate is directly related to the burning efficiency of fat, so that whether the intelligent wearable equipment is in the optimal fat burning heart rate or not can be directly known when the intelligent wearable equipment is used, and the amount of exercise can be adjusted according to the current heart rate and the exercise distance, so that a better exercise effect can be obtained.

Drawings

Fig. 1 is a schematic front view of an intelligent wearable device in an embodiment of the present invention.

Fig. 2 is a schematic back view of the intelligent wearable device in one embodiment of the present invention.

Fig. 3 is a schematic diagram of a display screen of the intelligent wearable device according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a user using the intelligent wearable device in one embodiment of the present invention.

Fig. 5 is a schematic diagram of a connection relationship of the intelligent wearable device in a specific embodiment of the present invention.

Detailed Description

The wearable equipment of intelligence of the utility model that the following combines the attached drawings and detailed description to describe in further detail.

Research finds that the reason why the metering error of the sports watch or the sports bracelet in the prior art is large is that in the prior art, a pedometer is used for counting steps, the number of steps stepped on in unit time is recorded, and the movement distance is obtained through a formula of step distance, step frequency and distance. The step pitch is not always constant, so the obtained exercise distance has a large error, and researches find that the exercise watch or the exercise bracelet in the prior art cannot give a user a good exercise suggestion.

Please refer to fig. 1, 2, and 5, wherein fig. 1 is a front schematic view of the wearable device of intelligence in an embodiment of the present invention, fig. 2 is a back schematic view of the wearable device of intelligence in an embodiment of the present invention, and fig. 5 is a schematic view of a connection relationship of the wearable device of intelligence in an embodiment of the present invention.

In this particular embodiment, a smart wearable device is provided, comprising: a heart rate monitoring module 201, configured to acquire a heart rate of a user; a GPS module 501, configured to obtain a motion trajectory of a user; the calculating module 502 is connected to the heart rate monitoring module 201 and the GPS module 501, and acquires the exercise parameters of the user according to the detected heart rate of the user and the exercise trajectory of the user.

Above wearable equipment of intelligence has rhythm of heart monitoring module 201 and GPS module 501, can acquire user's rhythm of the heart and user's motion trail simultaneously to acquire user's motion parameter through calculation module 502 according to user's rhythm of the heart and motion trail, thereby realize the control to user's motion parameter, motion trail and rhythm of the heart, simple and convenient. Moreover, the heart rate is directly related to the burning efficiency of fat, so that whether the intelligent wearable equipment is in the optimal fat burning heart rate or not can be directly known when the intelligent wearable equipment is used, and the amount of exercise can be adjusted according to the current heart rate and the exercise distance, so that a better exercise effect can be obtained.

In a specific embodiment, the heart rate monitoring module 201 comprises a green heart rate detection unit with a green light source 202 that exits towards the user's body.

In a specific embodiment, the green light source 202 of the green light heart rate detection unit is disposed at a contact surface of the smart wearable device, which is in contact with a user.

Please refer to fig. 2 and 4, wherein fig. 4 is a schematic diagram of a user using the intelligent wearable device in an embodiment of the present invention.

In this embodiment, after the user wears the smart wearable device, the green light source 202 is disposed inside the smart wearable device without any other gap from the user's skin.

In this embodiment, a light-sensing heart rate technique is used to detect the heart rate of the user by the principle of light reflection. In this embodiment, in the process of detecting the heart rate, the green light heart rate detecting unit emits green light toward the a region of the user's body to detect the flow rate of blood flowing through the blood vessels in the a region of the user's body at any time. Specifically, when the heart of the user beats, more blood flows through the blood vessels in the region a, and the amount of green light absorbed by the blood is increased. In the heart beating interval, the blood flow in the blood vessel in the area A is reduced, and the absorption of green light by the blood is also reduced, so that the heart rate is detected by detecting the change of the green light absorption.

In a specific embodiment, the green heart rate detection unit further comprises a photosensitive photodiode. The photosensitive photodiode is also arranged towards the body of the user and used for detecting the intensity of the green light reflected back by the body of the user, and therefore the heart rate can be detected through statistics of the intensity of the emergent green light and the intensity of the reflected green light.

In a specific embodiment, the GPS module 501 may obtain the current location of the smart wearable device, and count the locations of the smart wearable device over a period of time to form a motion trajectory.

In the specific implementation mode, the user can acquire the motion trail of the user through the intelligent wearable device, the operation is simple and convenient, and other mobile terminals are not required to be equipped to record the motion trail of the user.

In a specific embodiment, the method further comprises the following steps: a pedometer 504 connected to the calculating module 502 for the calculating module 502 to calculate and obtain the motion parameters; the motion parameters comprise the motion speed, the heat consumed by motion and the number of motion steps.

In one embodiment, the pedometer 504 includes a shock sensor that detects shock and an electronic counter that counts the number of shocks to thereby count the number of steps taken by the user. In fact, a person skilled in the art can set the specific structure of the pedometer 504 as needed, so that the pedometer 504 further includes an acceleration sensor, and the user can know the acceleration of the user's movement, thereby having practical significance.

In a specific embodiment, the method further comprises the following steps: the display module 505 is connected to the heart rate monitoring module 201, the GPS module 501 and the calculation module 502, and is configured to display the heart rate, the movement track and the movement parameters of the user, and when the display module 505 displays the heart rate, the movement track and the movement parameters of the user, the display background is in a gem shape, and the display background in the gem shape is switched along with the heart rate range of the user.

In a specific embodiment, the smart wearable device is in a ring shape, and includes a ring 102 and a flower head disposed on the surface of the ring 102, and the display module 505, the heart rate monitoring module 201, the GPS module 501, and the calculation module 502 are disposed on the flower head.

In one embodiment, the display module 505 comprises a display 101, and the display 101 is disposed on the flower head as a ring facing outward. When the display module 505 is used for displaying information, the information is displayed through the display screen 101.

In one embodiment, the display screen 101 is further configured to display a current time. Please refer to fig. 3, which is a schematic diagram of the display screen 101 of the intelligent wearable device according to an embodiment of the present invention.

In this specific embodiment, the display screen 101 displays time information such as date, so that the user can also obtain the time information through the smart wearable device.

In one embodiment, the display screen 101 is provided with a first display area 301 for displaying a motion trajectory. Referring to fig. 3, in this embodiment, the motion track is directly represented by a line and displayed on a map of the area where the user is currently located.

In one embodiment, when the first display area 301 displays a map, the scale of the map is adjusted according to the display of the motion trail. For example, when the length of the motion trail of the user is within 3KM, the scale of the map is also adjusted to a suitable size, so that the long motion trail of the user 3KM can be displayed in the first display area 301 completely and in a welt manner, and thus, the user can clearly and clearly obtain the motion trail of the user through the display screen 101, which is simple and convenient.

In one embodiment, the smart wearable device uses two modes to obtain the motion trajectory of the user. The first method is that the user controls the smart wearable device to start acquiring the motion trail of the user at a specific time point, and then the motion trail of the user within a specific time period is acquired. The second type is that the intelligent wearable device determines whether to start to acquire the motion trail of the user according to the heart rate of the user, so that the intelligent wearable device can automatically start to acquire the motion trail of the user when the heart rate of the user is fast and the user is likely to be in a motion state. For example, in a specific embodiment, when the heart rate monitoring module 201 detects that the heart rate of the user is 90 to 140BPM, the smart wearable device starts to acquire the motion trajectory of the user until the heart rate of the user is not in the range of 90 to 140 BPM.

In one embodiment, upon entering both modes, the first display area 301 appears on the surface of the display screen 101 to display a motion trajectory.

In fact, the smart wearable device also uses a periodic pattern to acquire the motion trajectory of the user. In this periodic mode, the smart wearable device continuously acquires a motion trajectory over a period. In one embodiment, the period of the periodic pattern is 24 hours, and the periodic pattern is updated at 12:00 nights to obtain a new periodic motion track.

In this embodiment, the user may invoke the display of the motion trail at any time, or the motion trail is also displayed on the display screen 101.

In a more preferred embodiment, the period of the periodic pattern is self-settable. In a specific embodiment, the display screen 101 is a touch screen, and a user may set a period of the periodic pattern by touching the touch screen. The intelligent wearable device also provides a period setting interface, and a user can control the increase and decrease of the period duration and update the setting of the time point by simply clicking the plus or minus number. The user can also call and display the motion trail by touching the display screen 101, so that the motion trail is displayed on the display screen 101.

In this embodiment, the display screen 101 is further provided with a second display area 302 for displaying the heart rate and the exercise parameters of the user. In one embodiment, the exercise parameters include mileage of exercise, duration of exercise, speed of exercise, heat consumed by exercise, and number of steps of exercise, as shown in fig. 4.

In a specific embodiment, the second display area 302 displays the motion parameters of the user in a time period of counting the motion trajectory, so that when the motion trajectory is not displayed, only the heart rate and the step number are displayed on the display screen 101, and thus, the display content of the display screen 101 is more concise, and the whole display interface is more beautiful.

In this specific embodiment, when the display module 505 displays the heart rate, the motion track and the motion parameters of the user, the display background is in a gem shape, so the intelligent wearable device further has certain aesthetic property and concealment property, and can be applied to occasions requiring aesthetic property and concealment.

In a specific embodiment, the display background in a gem shape is switched along with the heart rate range of the user, so that the heart rate range of the user can be acquired only by observing the display background, and the method is simple and convenient.

In one embodiment, the display context that switches with the heart rate range of the user includes at least two of a ruby-like display context, a sapphire-like display context, and a emerald-like display context. All display backgrounds are arranged to be gem-shaped, hidden and beautiful, and can be worn in various occasions.

In a specific embodiment, the display background of the display module 505 is normally bright, and the aesthetic property and the hiding property of the smart wearable device are maintained all the time.

In one embodiment, the display screen 101 includes at least one of an OLED screen or an LED screen. In one embodiment, the display screen 101 includes an OLED screen, and since the OLED screen may not emit light at all when displaying black, a perfect picture contrast may be displayed, and the display picture will be more vivid and real. And, because the OLED screen does not need backlight unit, can accomplish ultra-thin, power saving, wide colour gamut, flexible, wide visual angle, this also accords with the demand that sets the wearable equipment of intelligence into finger wearing equipment, can not let finger wearing equipment's the flower head is too thick, influences finger wearing equipment's aesthetic property and disguise nature.

In one embodiment, the smart wearable device further comprises: the bluetooth module 503 is connected to the computing module 502, and is configured to be connected in a pairing manner with an external device, so as to implement data transmission between the intelligent wearable device and the external device; a network connection module 506 connected to the computing module 502 for connecting to the internet to realize data transmission between the smart wearable device and the internet.

In a specific embodiment, the bluetooth module 503 uses a bluetooth 5.0 protocol for data transmission, so when transmitting data to an external device, the maximum distance from the external device can reach 300m, the maximum speed can reach 2Mbps, and the data transmission is very convenient. In practice, other bluetooth protocols may be used for data transmission.

In a specific embodiment, the method further comprises the following steps: the bone conduction module 103 is connected to the bluetooth module 503, and is configured to play the sound information received by the bluetooth module 503. In this specific embodiment, the bone conduction module 103 converts sound into mechanical vibration of different frequencies, and transmits sound waves through skull, bone labyrinth, inner ear lymph fluid transmission, spiral organ, auditory nerve, auditory center of a person, so that when the user uses the wearable device, the wearable device needs to be attached to the body and contact with the body.

In this embodiment, the bone conduction module 103 is disposed on a side of the user that facilitates contact with the user. For example, when the wearable equipment of intelligence is the finger wearing equipment of ring 102 form, bone conduction module 103 sets up in the position relative with display module 505, and people are wearing during the finger wearing equipment, display module 505 is natural outwards, deviates from the user's body, and the natural inside of bone conduction module 103 is towards the user's body, and the user is using when bone conduction module 103 plays sound information, place the palm towards the ear side, can realize the propagation of sound with the contact of ear side, and is simple and convenient.

In a specific embodiment, the method further comprises the following steps: an SOS reminding module 507, connected to the GPS module 501 and the network connection module 506, configured to generate an SOS message with user location information, and transmit the SOS message to the internet through the network connection module 506.

In this specific embodiment, the SOS alert module 507 may further be connected to the bluetooth module 503, and the bluetooth module 503 transmits SOS information to an external device to which the bluetooth module 503 is connected, so that when the network connection module 506 is not connected to the internet, the transmission of the SOS information may also be completed, thereby preventing that the SOS information cannot be sent out due to a network condition, and thus, the rescue of the user is affected.

In a specific implementation mode, the surface of the intelligent wearable device is provided with an SOS button, and the SOS button is connected with the SOS reminding module 507, so that the step of sending SOS information by a user is simplified, and the user can send out the SOS information in an emergency.

In a specific embodiment, once the user sends the SOS information, the SOS alert module 507 counts the location of the smart wearable device every a preset time period, generates a new SOS information including the updated location information, and sends the new SOS information to the internet or an external device through the network connection module 506 or the bluetooth module 503.

In the specific embodiment, the sending of the SOS information is stopped only by pressing the SOS button again or stopping sending the SOS information, so that the real-time updating of the SOS information is ensured, and the rescue difficulty is reduced.

In one embodiment, the SOS button is disposed on a side of the smart wearable device, rather than on the front or back, so that the chance of the SOS button being touched by mistake is reduced. Preferably, the SOS button is disposed in a groove in a side of the smart wearable device.

Above wearable equipment of intelligence has rhythm of heart monitoring module 201 and GPS module 501, can acquire user's rhythm of the heart and user's motion trail simultaneously to acquire user's motion parameter through calculation module 502 according to user's rhythm of the heart and motion trail, thereby realize the control to user's motion parameter, motion trail and rhythm of the heart, simple and convenient.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A smart wearable device, comprising:

the heart rate monitoring module is used for acquiring the heart rate of the user;

the GPS module is used for acquiring the motion trail of the user;

the calculation module is connected to the heart rate monitoring module and the GPS module and used for acquiring the motion parameters of the user according to the detected heart rate of the user and the motion trail of the user;

the pedometer is connected to the calculation module and used for the calculation module to calculate and obtain the motion parameters;

the motion parameters comprise the motion speed, the heat consumed by motion and the number of motion steps.

2. The smart wearable device of claim 1, wherein the heart rate monitoring module comprises a green heart rate detection unit having a green light source that exits towards the user's torso.

3. The smart wearable device according to claim 2, wherein a green light source of the green heart rate detection unit is disposed at a contact surface of the smart wearable device that contacts a user.

4. The smart wearable device of claim 1, further comprising:

the display module is connected to the heart rate monitoring module, the GPS module and the calculation module and used for displaying the heart rate, the movement track and the movement parameters of the user, and when the display module displays the heart rate, the movement track and the movement parameters of the user, the display background is in a gem shape, and the display background in the gem shape is switched along with the heart rate range of the user.

5. The intelligent wearable device of claim 4, wherein the intelligent wearable device is in a ring shape and comprises a ring and a flower head arranged on the surface of the ring, and the display module, the heart rate monitoring module, the GPS module and the calculation module are all arranged on the flower head.

6. The smart wearable device of claim 5, wherein the display module comprises a display screen, and wherein the display screen is disposed on the flower head as a ring facing outward.

7. The smart wearable device of claim 1, further comprising:

the Bluetooth module is connected to the computing module and is used for being connected with external equipment in a matching mode so as to realize data transmission between the intelligent wearable equipment and the external equipment;

and the network connection module is connected to the computing module and used for connecting to the Internet so as to realize data transmission between the intelligent wearable device and the Internet.

8. The smart wearable device of claim 7, further comprising:

and the bone conduction module is connected to the Bluetooth module and used for playing the sound information received by the Bluetooth module.

9. The smart wearable device of claim 7, further comprising:

and the SOS reminding module is connected to the GPS module and the network connection module and used for generating an SOS message with user position information and transmitting the SOS message to the Internet through the network connection module.

Images