CN108499003B - Intelligent skipping rope and intelligent skipping rope system comprising same - Google Patents

Abstract

The invention discloses an intelligent skipping rope and an intelligent skipping rope system comprising the same. The rope skipping tether is provided with an LED module for displaying an interactive interface; the handle includes: a first wireless module configured to transmit and receive data; the operation module is electrically connected with the microprocessor and is configured to receive the operation of the main user on the interactive interface; the microprocessor is respectively electrically connected with the first wireless module, the operation module and the LED module, and controls the LED module to display an interactive interface in a visual persistence mode when the intelligent skipping rope rotates along with the skipping rope action of the main user; sending first data to first external equipment according to the operation of a master user on an interactive interface through a first wireless module, and receiving second data from second external equipment; and updating the display content of the interactive interface according to at least one of the first data and the second data. The invention improves the interchangeability of rope skipping and greatly reduces the boring feeling caused by long-time rope skipping.

Description

Intelligent skipping rope and intelligent skipping rope system comprising same

Technical Field

The invention relates to the technical field of electronics, in particular to an intelligent skipping rope and an intelligent skipping rope system comprising the intelligent skipping rope.

Background

Modern people often suffer from lack of exercise due to frequent sedentary and long-term dependence on electronic products for work and entertainment. The skipping rope is a widely known sport appliance common in life, and has the advantages of simplicity, practicability, low cost, no need of special fields and no limitation of specific time. According to one study, the skipping rope consumes heat after the fast running and before other types of sports in the types of sports such as fast running, slow running, skipping rope, badminton and yoga. In addition, the advantages of the skipping rope show that the skipping rope is an effective exercise which can well meet the requirements of modern people on body building, weight losing and body shaping.

However, the rope skipping movement also has the defects that the rope skipping movement is monotonous and has defects in the interest aspect, so that the long-time rope skipping movement is too tedious and difficult to persist by modern people. Thus, the activity of modern people in rope skipping has decreased considerably than in the past.

Disclosure of Invention

In order to enhance the physique of modern people and urge the modern people to exercise, the invention aims to provide the intelligent skipping rope and the intelligent skipping rope system comprising the intelligent skipping rope, which are used for enhancing the enthusiasm of a user for exercising by using the skipping rope, so that the intelligent skipping rope can be persistently maintained, and the effects of improving the physical quality and the physical health are realized.

According to an aspect of the present invention, there is provided an intelligent skipping rope, including: an intelligent skipping rope comprises a handle and a skipping rope tether, wherein an LED module is arranged on the skipping rope tether and used for displaying an interactive interface; the handle includes: a first wireless module configured to transmit and receive data; the operation module is electrically connected with the microprocessor and is configured to receive the operation of the main user on the interactive interface; and the microprocessor electrically connected with the first wireless module, the operation module and the LED module respectively and configured to: when the intelligent skipping rope rotates along with the skipping rope action of the main user, the LED module is controlled to display the interactive interface in a visual persistence mode; sending first data to a first external device according to the operation of the main user on the interactive interface through the first wireless module; receiving, via the first wireless module, second data from a second external device; and updating the display content of the interactive interface according to at least one of the first data and the second data.

Preferably, the microprocessor is configured to: according to the operation of the main user on the interactive interface, at least one of expression picture data and dialogue data is sent to an intelligent skipping rope or an intelligent terminal operated by an interactive user who interacts with the main user through the first wireless module, and the display of the interactive interface is updated according to the sent data; and/or receiving at least one of emoticon data and dialogue data from an intelligent skipping rope operated by an interactive user or an intelligent terminal through the first wireless module, and updating the display of the interactive interface according to the received data.

Preferably, the microprocessor is configured to: receiving, by the first wireless module, a user list from a smart terminal operated by the primary user; and updating the user list displayed on the interactive interface according to the received user list.

Preferably, the operation module is configured to receive a selection operation of one user in the user list by the master user, the selected user being the interactive user, and wherein the microprocessor is configured to: sending a user information request message associated with the interactive user to a smart terminal operated by the master user through the first wireless module; receiving, by the first wireless module, user information transmitted in response to the user information request message from a smart terminal operated by the primary user; and displaying the user information on the interactive interface.

Preferably, the handle further comprises: a counting module electrically connected to the microprocessor and configured to generate a count value according to a number of rope skips during a user rope skips, and wherein the microprocessor is further configured to: displaying the count value on the interactive interface; and sending the count value to a smart terminal operated by the primary user through the first wireless module.

Preferably, the handle further comprises: an electrocardiograph acquisition device configured to acquire heart rate information of the primary user during a rope jump and transmit the heart rate information to the microprocessor, and wherein the microprocessor is further configured to: displaying the heart rate information on the interactive interface; and sending the heart rate information to an intelligent terminal operated by the master user.

Preferably, the handle further comprises: a photographing device configured to be capable of rotating in a handle axial direction and rotating in a direction perpendicular to the handle axial direction and photographing an image, and transmitting the photographed image to the microprocessor; and wherein the microprocessor is further configured to: and sending the shot image to an intelligent terminal operated by the main user.

Preferably, the handle further comprises: the touch screen is electrically connected with the microprocessor and is configured to receive touch operation of a user; and wherein the microprocessor is further configured to: and setting basic information of the intelligent skipping rope used by the main user according to the touch operation of the main user, and controlling the display of the touch screen.

The invention also provides an intelligent skipping rope system, which comprises the intelligent skipping rope and an intelligent skipping rope application, wherein the intelligent skipping rope application is installed on the intelligent terminal operated by the main user, and the intelligent skipping rope application is configured to receive data from the microprocessor of the intelligent skipping rope through the intelligent terminal and send data to the microprocessor through the intelligent terminal.

Preferably, the intelligent terminal comprises one of a smart phone, a tablet computer, a notebook computer, a desktop computer and a smart television.

The invention has the beneficial effects that: the rope skipping exercise device has the advantages that data can be sent to the external device according to the operation of the main user in the rope skipping exercise process, the second data from the second external device are received, and the interactive interface is updated according to at least one of the first data and the second data, so that the interchangeability of the rope skipping exercise is improved, the boring feeling caused by long-time rope skipping is greatly reduced, and the main user is prompted to insist on the rope skipping to achieve the effects of exercising the body and strengthening the physique.

Drawings

FIG. 1 is a schematic view of a left handle of an intelligent skipping rope according to one embodiment of the invention;

FIG. 2 is a schematic view of a skipping rope right handle of the intelligent skipping rope of one embodiment of the invention;

FIG. 3 is a schematic view of an LED portion at the mid-section of a skipping rope tether of one embodiment of the present invention;

FIG. 4 is a schematic block diagram of the skipping rope system hardware of one embodiment of the present invention;

fig. 5 is a schematic block diagram of an intelligent skipping rope system according to an embodiment of the present invention, in which fig. 5(a) illustrates a functional block diagram of an intelligent skipping rope, and fig. 5(B) illustrates a functional block diagram of an intelligent skipping rope Application (APP) installed on a mobile phone;

FIG. 6 illustrates an interactive interface of a preferred embodiment of the present invention;

FIG. 7 is an exemplary screenshot of a cell phone APP interface, in accordance with an embodiment of the present invention;

FIG. 8 illustrates a state diagram of a user using the intelligent skipping rope system (social system);

fig. 9 shows a schematic structural diagram of an intelligent skipping rope according to an embodiment of the invention.

Detailed Description

Various aspects and features of the disclosure are described herein with reference to the drawings. These and other characteristics of the invention will become apparent from the following description of a preferred form of embodiment, given as a non-limiting example, with reference to the accompanying drawings.

The specification may use the phrases "in one embodiment," "in another embodiment," "in yet another embodiment," or "in other embodiments," which may each refer to one or more of the same or different embodiments in accordance with the disclosure. Note that, throughout the specification, the same reference numerals denote the same or similar elements, and an unnecessary repetitive description is omitted. Furthermore, the singular reference of an element in the embodiments does not exclude the plural reference of such elements.

Fig. 9 is a schematic structural diagram of an intelligent skipping rope according to an embodiment of the present invention. The intelligent skipping rope 10 of the embodiment comprises: a first handle 100, a second handle 200, and a jump rope tether 300.

The skipping rope tether 300 is provided with an LED module 301 for displaying an interactive interface. The first handle 100 includes: a first wireless module 101, an operation module 103 and a microprocessor 104. The first wireless module 101, the operation module 103 and the LED module 301 are electrically connected to the microprocessor 104. Wherein the first wireless module 101 is used for wirelessly transmitting and receiving data. The interactive interface is an interface that can be viewed by the master user when the master user performs a rope skipping action, and may include a variety of contents. As shown in fig. 6, an interactive user name for interaction with the main user is displayed in the interactive interface (only an example), and relevant motion information of the user includes heart rate, rope skipping times, chat content and the like. The operation module 103 may be configured to receive an operation of the interactive interface by a main user. In some embodiments, the operation module 103 has one or more buttons (function buttons) so that the master user can select content on the interactive interface, further view, or rewind, depending on the particular functional design desired.

The microprocessor 104 transmits and receives data through the first wireless module 101, and controls the LED module 301 to display an interactive interface in a persistence mode during the rotation of the smart skipping rope according to the skipping rope motion of the master user. And, the microprocessor 104 can transmit the first data to the first external device and receive the second data from the second external device according to the operation of the interactive interface by the main user. In addition, the microprocessor 104 can update the display content of the interactive interface according to at least one of the first data and the second data.

In the aspect of displaying an interactive interface, POV technology (also known as Persistence of vision) is utilized, and when the LED array rotates, due to human visual Persistence effect (or afterglow effect), the LED display on the array is converted into a flat display mode.

Therefore, the main user can realize interaction with other rope skipping users through the operation module while performing rope skipping actions, the interaction is visually seen on the interaction interface, the interactivity and interestingness of rope skipping movement are enhanced, and the user is prompted to insist on rope skipping movement.

Although the above embodiments show the first wireless module 101, the operating module 103, and the microprocessor 104 disposed in the first handle 100, those skilled in the art will appreciate that the first wireless module 101, the operating module 103, and the microprocessor 104 may be partially or entirely disposed in the second handle 200.

In one embodiment, the microprocessor 104 may transmit at least one of emoticon data and dialogue data to an intelligent skipping rope or an intelligent terminal operated by an interactive user according to an operation of the interactive interface by a master user, and update a display of the interactive interface according to the transmitted data; and receiving at least one of emoticon data and dialogue data from an intelligent skipping rope operated by an interactive user or an intelligent terminal, and updating the display of the interactive interface according to the received data. The dialogue data may be some data stored in advance, and is selected by the user through the operation module 103 to be transmitted to the interactive user.

Therefore, the main user and other users who use the intelligent skipping rope can communicate with each other, if the users can mutually refuel and encourage, interaction is enhanced through expression and conversation, and the users are encouraged to insist on skipping rope movement, so that the purpose of physical exercise is achieved.

In one embodiment, the microprocessor is capable of receiving a user list from a smart terminal operated by a master user; and displaying the updated user list on the interactive interface.

Therefore, the interactive interface realizes real-time updating. The user can observe a newly added rope skipping partner and a quitting partner in the rope skipping, so that the meaning of the rope skipping sports is enriched, and the rope skipping sports are changed into 'collective sports' and 'interesting sports'.

In this embodiment, preferably, the operation module 103 may receive a selection operation of one user in the user list by the master user, the selected user being an interactive user, and wherein the microprocessor 104 may transmit a user information request message associated with the interactive user to the smart terminal operated by the master user; receiving user information transmitted in response to a user information request message from a smart terminal operated by a master user; and displaying the user information on the interactive interface.

Thus, the user can quickly grasp the dynamics of the interactive user while exercising.

In one embodiment, in addition to the above components, the first handle 100 may further comprise a counting module 105 electrically connected to the microprocessor 104, the counting module 105 generating a count value according to the number of rope skips during a user's rope skips, and the counting module 105 may be implemented by an electromagnetic sensor, for example. The microprocessor 104 may display the count on the interactive interface, for example, when the user is not skipping a rope, the module 102 is displayed; and transmitting the count to a smart terminal operated by the master user.

In another embodiment, the second handle 200 may include: a second wireless module 201 for transmitting and receiving data; the electrocardio acquisition device 202 is used for acquiring heart rate information of the main user in the rope skipping process and sending the heart rate information to the microprocessor through the second wireless module, and the microprocessor 104 can also display the heart rate information on the interactive interface; and sending the heart rate information to an intelligent terminal operated by the master user.

The position of the ecg collection device 202 can be set as desired. For example, the electrocardiograph acquisition device 202 may be disposed at a position corresponding to a thumb of the user holding the handle to acquire the heart rate, or the electrocardiograph acquisition device 202 may be disposed at a position substantially in the palm portion of the user holding the handle.

In a variant of this embodiment, the ecg data acquisition device 202 may also be in wired electrical connection with the microprocessor 104 to send the acquired heart rate data to the microprocessor 104, in which case the second wireless module 201 may not be provided. Also, the ecg collection device 202 may be disposed in the first handle 100.

In a combined embodiment, the intelligent skipping rope can include both the counting module 105 and the electrocardiograph acquisition device 202.

In one embodiment, the second handle 200 includes: a photographing device 203 capable of rotating in the handle axial direction and photographing an image in a direction perpendicular to the handle axial direction, and configured to transmit the photographed image to the microprocessor 104 via the second wireless module 201; and wherein the microprocessor 104 transmits the photographed image to a smart terminal operated by the main user.

Rotation of the camera in the axial direction of the handle and rotation in a direction perpendicular to the axial direction of the handle can be achieved by providing two orthogonal rotation axes. In this way, the photographing apparatus can flexibly photograph images desired to be photographed by a user at various angles.

In a modified embodiment of this embodiment, the photographing device 203 may also be electrically connected to the microprocessor 104 by wire to transmit the photographed image data to the microprocessor 104, in which case the second wireless module 201 may not be provided. Also, the photographing device 203 may be provided in the first handle 100.

In a combined embodiment, the intelligent skipping rope can comprise both the counting module 105 and the electrocardio-acquisition device 202 and the shooting device 203.

In one embodiment, first handle 100 may further include a touch screen 102 electrically connected to microprocessor 104 and configured to receive user manipulation thereof; the microprocessor 104 may set basic information of the smart skipping rope used by the master user and control the display of the touch screen according to the operation of the master user. The touch screen 102 may also be disposed on the second handle 200

In a combined embodiment, the intelligent skipping rope can simultaneously comprise the counting module 105, the electrocardio-acquisition device 202, the shooting device 203 and the touch screen 102.

It should be understood that the above-described modules of the intelligent skipping rope can be freely combined and freely provided in the respective handles in addition to the LED module according to the spirit and essence of the present invention.

In one embodiment, an intelligent skipping rope system is further provided, which includes the intelligent skipping rope of the embodiment and an intelligent skipping rope Application (APP), wherein the intelligent skipping rope application is installed on an intelligent terminal operated by a master user, the intelligent terminal includes one of a smart phone, a tablet computer, a notebook computer, a desktop computer and a smart television, and the intelligent skipping rope APP can receive data from a microprocessor of the intelligent skipping rope through the intelligent terminal and send the data to the microprocessor through the intelligent terminal. That is to say, the data that intelligent skipping rope sent for intelligent terminal is distributed to this intelligence rope skipping APP after arriving intelligent terminal, and the source of the data that intelligence rope skipping received from intelligent terminal is this intelligence rope skipping APP in fact.

Utilize this intelligence rope skipping system, the user can realize social interaction when the rope skipping for the rope skipping connotation extends and richens, attracts the user to keep the interest to the rope skipping motion, reaches the beneficial effect of taking exercise.

Next, as shown in fig. 1, a schematic view of the left handle of the intelligent skipping rope according to one embodiment of the present invention is shown. The intelligent skipping rope system of the preferred embodiment of the invention comprises an intelligent skipping rope (hereinafter or simply referred to as "skipping rope") and a mobile phone APP.

An electrocardio acquisition device, a rotatable miniature camera, a lithium battery power supply module and a wireless module are arranged in the left handle of the skipping rope. Wherein, the sensor part 1 of the electrocardio-acquisition device is arranged at the contact position of the thumb of the handle. The 2 is a micro camera which is arranged on the handle and can rotate left and right and turn over up and down. The miniature camera is used for recording the scenes and the environment during movement, and the wireless module is used for data transmission between the electrocardio acquisition device and the processor.

Fig. 2 is a schematic diagram of a skipping rope right handle of the intelligent skipping rope according to an embodiment of the invention. Wherein 3 is the button, and 4 is OLED touch display screen, is used for showing rope skipping system information. And a microprocessor, a counting module, a lithium battery power supply module and a wireless module are arranged inside the rope skipping right handle. Four keys (key module) are arranged at the right handle, and the functions of the four keys are divided into 'up', 'down', 'confirmation' and 'cancellation', and the four keys are used for controlling intelligent rope skipping operation.

Referring to fig. 3, which is a schematic diagram of an LED portion at a middle section of a skipping rope tether according to an embodiment of the present invention, an information display effect is achieved by using a POV technology by installing an LED flexible circuit board at the middle section of the skipping rope tether for a visual display function. During display, the microprocessor can send prestored pictures and corresponding expressions, so that real-time communication is realized. In other embodiments, the LED device may be mounted not at the middle section but at a portion offset from the middle section.

Fig. 4 is a schematic structural block diagram of the skipping rope system hardware of one embodiment of the invention. The intelligent skipping rope in the embodiment of fig. 4 comprises a microprocessor, a wireless module, an electrocardio-acquisition module, a counting module, a micro camera, a lithium battery power supply module, an OLED display module and an LED display module. The left handle and the right handle are both provided with columnar lithium batteries, preferably columnar lithium batteries, are arranged in the handles and supply power for the system. It should be noted that the system shown in fig. 4 is only one exemplary embodiment of the present invention, and that other embodiments of the present invention may include more or less components.

In the embodiment shown in fig. 4, the microprocessor may be configured to process the electrocardiographic data from the electrocardiographic acquisition module, control data transceiving of the wireless module, and run a program to realize display and interaction functions of the rope skipping system. The wireless module is configured to transmit data and communicate with other user equipment. The electrocardio acquisition module is configured to acquire heart rate information of a user in real time and monitor the motion state of the user. The counting module is configured to count rope skipping times, calculate rope skipping frequency and provide a frequency reference for the POV display. The OLED display module is used for displaying basic information of the rope skipping system. The LED display module is a hardware part supporting POV display, and display signals come from the microprocessor and are connected with the microprocessor through wires in the skipping rope.

Fig. 5 is a schematic block diagram of an intelligent skipping rope system according to an embodiment of the present invention, in which fig. 5(a) illustrates a block diagram of an intelligent skipping rope, and fig. 5(B) illustrates a block diagram of an intelligent skipping rope Application (APP) installed on a mobile phone. It should be noted that the block diagram of the module shown in fig. 5 is only an exemplary embodiment of the present invention, and other embodiments of the present invention may include more or less functional modules. In the embodiment of the invention, the POV technology is used in the intelligent skipping rope, and the interactive interface is displayed in front of the eyes of the user by utilizing the characteristic of circumferential rotation of the skipping rope. A counting module is added in the skipping rope, the counting module is used for calculating the skipping rope times and recording the time of single skipping rope, the time of switching the LED module pictures can be calculated according to the skipping rope time, and the condition that an interactive interface is displayed in front of a user instead of under feet or behind the user is guaranteed. For example, the rope skipping is performed for 1 second for one turn, the circumference of the rope skipping is divided into 360 sections, the top of the head is positioned at 0 degrees and the starting position of timing, the uppermost end of the interactive interface needs to be displayed at 45 degrees, the lowermost end of the interactive interface is at 135 degrees, the starting display time is 45/360 s 1s, the display screen is 10 lines of pixels, the interval of each line of pixels is 9/360 s 1s, and under the condition that the rope skipping frequency is changed, the POV display can still be changed according to the rope skipping frequency, so that the normal display is ensured.

An exemplary interaction interface according to an embodiment of the present invention is shown in fig. 6, and includes other users, a chat interface, a dialog option, an emoticon option, and exercise information such as electrocardiographic data and rope skipping times. When a user is online, the user list updates the user name. The upper left corner of the interface is the rope skipping times and the heart rate information of the user. When a user is selected, the middle dialog box position displays the name, the motion information and the communication information of the other party. The lower part is a quick option of conversation and expression, and a user can send a corresponding message after selecting a corresponding option by using a key and confirming the corresponding option.

In the embodiment of the invention, the miniature camera can take pictures and record pictures of the environment and the individual before, during and after the rope skipping. The scene during motion is recorded and transmitted to the microprocessor through wireless transmission, and then the processor uploads the pictures and videos shot to the server or directly issues motion sharing in the mobile phone APP.

In the embodiment of the invention, the rope skipping system can record the heart rate, rope skipping times and rope skipping movement time information of a user in the rope skipping process, when the data volume is enough, the system can analyze the rope skipping times suitable for the user, and the excessive movement is prompted, so that the condition that the user is not fatigued excessively due to movement is ensured. When the user is skipping a rope, the mobile phone APP can display that the user is skipping the rope. The rope skipping information can also be synchronized with the server, and when the user does not skip the rope in the movement time period for a long time, the system can send a message to the mobile phone APP and the phone number bound by the user account to remind the user of skipping the rope.

In the embodiment of the invention, the rope skipping system can be connected with WIFI through the wireless module, and can log in a user account for use after being connected with the WIFI. At this time, the user information in the server is synchronized to the used skipping rope. Can connect WIFI except connecting and interact through the network, when the user jumps the rope with friend under online, can use the off-line mode, establish LAN through wireless module, also can interact after friend's connection gets into LAN. When the user reconnects the WIFI, the data of the offline mode can be uploaded to the server, and the completeness of data collection is guaranteed.

In the embodiment of the invention, the OLED touch screen is used for displaying the operation of the microprocessor running system. For example, the number of rope skips at this time and the current time are displayed, and operations such as offline mode, online mode, account login and the like are selected.

In the embodiment of the invention, the APP functions of the mobile phone end comprise contact persons, friend making, sharing, competition, scheduling and setting. In the contact options, information such as personal information of friends, motion states of the friends, latest motion time and the like can be displayed, when the friends are found not to jump ropes for a long time, messages can be sent to remind the friends of needing to do exercise, when the friends are found to jump ropes, the jumping ropes can be taken up in time, and rope jumping interaction is conducted with the friends. The friend making function is that the system pushes suitable friends according to the time, the number of skipping ropes, the skipping rope positions and the personal information (sex, age, love and marriage situation) of the user in daily sports, so that the user can exercise together at appointed time and places. The sharing function is that the user shares photos or videos shot when skipping a rope, and uploads the beautiful scenery and self-timer pictures in the sport to the friend-making circle. The competition function is to match opponents in the APP, so that time and place can be defined, and competition can be performed according to different projects (rope skipping number in one minute, one-time uninterrupted rope skipping number and the like). The ranking function includes rope skipping information of all rope skipping users or among friends, and increases the participation sense of the users according to the ranking of items such as the total number of rope skipping, the total length of rope skipping, the speed of rope skipping and the like. The setting function can set personal information and rope skipping reminding time. An example of a cell phone APP interface is shown in fig. 7.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the scope of the present invention is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present invention, and such modifications and equivalents should also be considered as falling within the scope of the present invention.

Claims (9)

1. The utility model provides an intelligence rope skipping, includes handle and rope skipping tether, its characterized in that:

the skipping rope tether is provided with an LED module for displaying an interactive interface;

the handle includes:

a first wireless module configured to transmit and receive data;

the operation module is electrically connected with the microprocessor and is configured to receive the operation of the main user on the interactive interface; and

the microprocessor is electrically connected with the first wireless module, the operation module and the LED module respectively and is configured to:

when the intelligent skipping rope rotates along with the skipping rope action of the main user, the LED module is controlled to display the interactive interface in a visual persistence mode;

sending first data to a first external device according to the operation of the main user on the interactive interface through the first wireless module;

receiving, via the first wireless module, second data from a second external device; and

updating the display content of the interactive interface according to at least one of the first data and the second data; wherein, the handle still includes:

a photographing device configured to be capable of rotating in a handle axial direction and rotating in a direction perpendicular to the handle axial direction and photographing an image, and transmitting the photographed image to the microprocessor; and wherein

The microprocessor is further configured to:

and sending the shot image to an intelligent terminal operated by the main user.

2. The intelligent skipping rope of claim 1, wherein,

the microprocessor is configured to:

according to the operation of the main user on the interactive interface, at least one of expression picture data and dialogue data is sent to an intelligent skipping rope or an intelligent terminal operated by an interactive user who interacts with the main user through the first wireless module, and the display of the interactive interface is updated according to the sent data; and/or

Receiving, by the first wireless module, at least one of emoticon data and dialogue data from an intelligent skipping rope operated by an interactive user or an intelligent terminal, and updating display of the interactive interface according to the received data.

3. The intelligent skipping rope of claim 2, wherein,

the microprocessor is configured to:

receiving, by the first wireless module, a user list from a smart terminal operated by the primary user; and

updating the display of the user list on the interactive interface according to the received user list.

4. The intelligent skipping rope of claim 3, wherein,

the operation module is configured to receive a selection operation of one user in the user list by the master user, the selected user being the interactive user, and wherein

The microprocessor is configured to:

sending a user information request message associated with the interactive user to a smart terminal operated by the master user through the first wireless module;

receiving, by the first wireless module, user information transmitted in response to the user information request message from a smart terminal operated by the primary user; and

and displaying the user information on the interactive interface.

5. The intelligent skipping rope of any one of claims 1 to 4,

the handle further comprises: a counting module electrically connected to the microprocessor and configured to generate a count value according to a number of rope skips during a user rope skips, and wherein

The microprocessor is further configured to:

displaying the count value on the interactive interface; and

sending, by the first wireless module, the count value to a smart terminal operated by the primary user.

6. The intelligent skipping rope of any one of claims 1 to 4,

the handle further comprises:

an ECG acquisition device configured to acquire heart rate information of the primary user during rope skipping and transmit the heart rate information to the microprocessor, and wherein

The microprocessor is further configured to:

displaying the heart rate information on the interactive interface; and

and sending the heart rate information to an intelligent terminal operated by the master user.

7. The intelligent skipping rope of any one of claims 1 to 4,

the handle further comprises:

the touch screen is electrically connected with the microprocessor and is configured to receive touch operation of a user; and wherein

The microprocessor is further configured to:

and setting basic information of the intelligent skipping rope used by the main user according to the touch operation of the main user, and controlling the display of the touch screen.

8. A smart skipping rope system comprising the smart skipping rope of any one of claims 1-7 and a smart skipping rope application, wherein the smart skipping rope application is installed on the smart terminal operated by the primary user, the smart skipping rope application is configured to receive data from the microprocessor of the smart skipping rope through the smart terminal and transmit data to the microprocessor through the smart terminal.

9. The intelligent skipping rope system of claim 8, wherein the intelligent terminal comprises one of a smart phone, a tablet computer, a notebook computer, a desktop computer and a smart television.

Images