CN214050313U - Feedback type skipping rope handle - Google Patents

Abstract

The utility model discloses a feedback type skipping rope handle; comprises a handle shell and a rotating shaft which is rotationally connected with one end of the handle shell; the motion sensor and the communication module are connected with the controller; the display screen and the sound generator are connected with the controller to display text information and play voice information; the communication module is at least one of a WIFI module and a Bluetooth module; the sound generator is at least one of an earphone and a loudspeaker. The utility model discloses feedback type skipping rope handle is equipped with communication module, display screen and sound generator, can in time upload student's skipping rope score to the server to in time receive the message that the server sent back. Feedback information may also be provided based on reference data stored in the skipping rope handle. The sound pick-up is further adopted, the voice of a user can be uploaded to the server, and the guardian who is used as an immature student forms an information interaction channel with the immature student through the feedback type rope skipping handle.

Description

Feedback type skipping rope handle

Technical Field

The utility model relates to a rope skipping handle, specifically speaking are rope skipping handles that have feedback function.

Background

The CN201520692261.4 health supervision system based on the intelligent wearable bracelet is mainly used for monitoring sub-health, and mainly protects terminal equipment; CN201480056685.x system and method for obtaining measurements of body functions using a mobile device and CN201480056302.9 system and method for obtaining measurements of body functions using a mobile device, mainly for measurements of body parameters; the CN201611063008.8 Internet + campus physical training/competition stadium/stadium informatization system is also mainly used for informatization of sports stadiums. CN 201610785295.7A sports integrated monitoring system and method thereof, which mainly introduces how a coach monitors the sports of athletes through network. No system exists for monitoring the long-term exercise amount of students and providing exercise guidance opinions or supervising according to the monitoring.

However, the skipping rope movement of the students needs to be fed back in time, so that the students can know the movement conditions of the students, the existing electronic skipping rope handle only has the functions of electronic counting and uploading movement data, and a skipping rope handle capable of providing the feedback of the amount of exercise is needed to be developed.

The existing patent documents only have a sound playing function, do not establish network connection, are music playing based on sports and do not have an interactive function. For this reason, the present inventors have recognized that there is a continuing need for a rope skipping handle with a network connection that can both play audio messages and display text messages.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a rope skipping handle with feedback function to the above-mentioned problem that exists among the prior art.

The purpose of the utility model is realized through the following technical scheme:

the feedback type skipping rope handle comprises a handle shell and a rotating shaft which is rotationally connected to one end of the handle shell; the motion sensor and the communication module are connected with the controller; the display screen and the sound generator are connected with the controller to display text information and play voice information; the communication module is at least one of a WIFI module and a Bluetooth module; the sound generator is at least one of an earphone and a loudspeaker.

Preferably, the device further comprises a control button and a sound pickup which are connected with the controller.

Preferably, the motion sensor is a counting sensor arranged at the inner end of the rotating shaft, and further comprises a fingerprint sensor connected with the controller.

Preferably, the fingerprint sensor with the earphone is located the handle shell is close to the one end of rotation axis, display screen, control button, adapter are located the handle shell is far away from the other end of rotation axis.

Preferably, the communication module further comprises a SIM card module; and a card slot for inserting the SIM card of the SIM card is arranged in the handle shell.

Preferably, still including locating the circuit board in the handle shell, the circuit board is equipped with main control chip, main control chip include controller and bluetooth module.

Preferably, the motion sensor further comprises an acceleration sensor disposed on the circuit board.

Preferably, the master control chip is an ESP32 type chip; the acceleration sensor is a KXTJ2 type chip.

Preferably, the counting sensor is three hall switches, and is arranged around the periphery of the inner end of the rotating shaft.

Preferably, one end of the circuit board is arranged on the side of the inner end of the rotating shaft, and the three hall switches are fixed on the circuit board.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses feedback type rope skipping handle is equipped with communication module, display screen and sound generator, can in time upload the rope skipping score of rope skipping person (mainly the student) to the server to in time receive the message that the server sent back. Feedback information may also be provided based on reference data stored in the skipping rope handle. The sound pick-up is further adopted, the voice of a user can be uploaded to the server, a guardian who is a minor student can join in a monitoring system of the server, and an information interaction channel is formed between the guardian and the minor student through the feedback type skipping rope handle. The sound generator can adopt a receiver, sound is not emitted outside, personal privacy is protected easily, and interference to outsiders is avoided. The speaker can also be adopted to play in the situation without outsiders. Further, by adopting the SIM card module, a user can directly utilize a network of a mobile network operator to be connected with the server in real time, and the processes of searching and connecting WIFI or Bluetooth are reduced. Furthermore, an acceleration sensor is adopted, so that the exercise intensity of the user during rope skipping can be detected, and more comprehensive statistics and analysis can be performed on the exercise amount of the user by combining the data of the counting sensor.

Drawings

Fig. 1 is a schematic structural view of a student health promotion monitoring system using a feedback type skipping rope handle of the present invention;

FIG. 2 is a schematic block diagram of a circuit of the motion information acquisition terminal in the embodiment of FIG. 1;

fig. 3 is a schematic block diagram of a circuit of a motion information acquisition terminal in a student health promotion monitoring system, which is a first embodiment of a rope skipping handle (without a SIM card module);

fig. 4 is a schematic circuit block diagram of a second embodiment of the feedback type skipping rope handle of the present invention;

FIG. 5 is a schematic structural diagram of the embodiment of FIG. 4;

fig. 6 is a first circuit diagram (with only WIFI and bluetooth modules) of a third embodiment of the feedback type skipping rope handle of the present invention;

fig. 7 is a circuit diagram ii of a third embodiment of the feedback type skipping rope handle of the present invention (with only WIFI and bluetooth modules);

fig. 8 is a block diagram of a server in a student health promotion monitoring system using a feedback skipping rope handle of the present invention;

fig. 9 is a flowchart of a student health promotion method using the feedback type skipping rope handle of the present invention.

Reference numerals

S student health promotion monitoring system 10 server

Controller of 20 communication repeater 301

302 motion sensor 303 body sensor

304 near field communication module 30 motion information acquisition terminal

310 pickup 311 count sensor

312 WIFI Module 313 Bluetooth Module

314 display 315 control buttons

316 fingerprint sensor 317 SIM card module

318 receiver 319 loudspeaker

31 wireless communication type skipping rope handle 32 handle shell

33 rotating shaft 34 power supply

Detailed Description

The technical solutions of the present invention will be described clearly and completely through the following embodiments, which are only some, but not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the embodiments of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the embodiments of the invention. As used in the description of the embodiments of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

As shown in fig. 1 and fig. 2, the student health promotion monitoring system S using the feedback type rope skipping handle of the present invention includes a server 10, a communication repeater 20 in communication connection with the server 10, and a motion information collecting terminal 30 in wireless communication connection with the communication repeater 20; the motion information acquisition terminal at least comprises one of a hand-held sensor, an upper limb sensor, a necklace type sensor, a belt type sensor and a lower limb sensor; the communication transfer device at least comprises one of a Bluetooth collector, a WIFI router and a smart phone with Bluetooth and WIFI functions; the motion information collecting terminal 30 includes a controller 301, and a motion sensor 302, a human body sensor 303 and a near field communication module 304 electrically connected to the controller 301. The communication repeater 20 is arranged in a campus, a residential district or a sport place and comprises one of a special collector, WIFI hotspot equipment and mobile equipment with health promotion APP; the special collector comprises a control circuit, a Bluetooth module and a communication module, wherein the Bluetooth module and the communication module are connected with the control circuit, and the mobile device at least comprises one of a smart phone and a tablet personal computer. Basically, where students move, data can be uploaded where.

As shown in fig. 3, in the first embodiment, the hand-held sensor is a feedback type skipping rope handle 31; the feedback type skipping rope handle 31 is provided with a controller 301, a counting sensor 311, a WIFI module 312 and a Bluetooth module 313, wherein the counting sensor 311, the WIFI module 312 and the Bluetooth module 313 are connected with the controller 301; the counting sensor 311 is a motion sensor, and the WIFI module 312 and the bluetooth module 313 are near field communication modules. In this embodiment, the SIM card module is not employed.

As shown in the second embodiment of fig. 4, the feedback type skipping rope handle 31 further comprises a display 314, a control button 315, a fingerprint sensor 316, a SIM card module 317, an earpiece 318, a speaker 319 and a microphone 310, which are connected with the controller 301; the fingerprint sensor is a human body sensor. A card slot for inserting a SIM card of the SIM card is required in the handle housing. Such a configuration may directly use the mobile network connection server.

As shown in fig. 5, the feedback type rope skipping handle 31 further includes a handle case 32, and a rotating shaft 33 rotatably coupled to one end of the handle case 32; a fingerprint sensor 316 and an earpiece 318 are provided at one end of the handle housing 32 proximate the axis of rotation 33, and a display 314, control buttons 315, microphone 310 are provided at the other end of the handle housing distal from the axis of rotation 33.

Fig. 6 and fig. 7 are circuit diagrams (with WIFI and bluetooth modules) of the third embodiment of the feedback type skipping rope handle of the present invention. Specific chip models and connections are shown. Among them, Q1 to Q3 are hall switches, which are counting sensors (i.e., the counting sensors are three hall switches, which are disposed around the periphery of the inner end of the rotating shaft, and for the convenience of mounting one end of the circuit board on the side of the inner end of the rotating shaft, the three hall switches are fixed on the circuit board). The controller is IC1, and is ESP32 type (self-carrying Bluetooth function, namely a main control chip arranged on a circuit board, and comprises a controller and a Bluetooth module). U2 is KXTJ2 type acceleration sensor. P3 is the FINGER print sensor of FINGER. Many other components are common devices and are not described herein.

Adopted the utility model discloses in the student health promotion monitoring system's of feedback type rope skipping handle other embodiments, can have following further technical scheme:

the upper limb type sensor is a sports bracelet which is worn on the wrist and provided with a fingerprint sensor so as to detect the upper limb exercise amount of students, and at least comprises one of basketball exercise amount, volleyball exercise amount, gymnastics exercise amount, baseball exercise amount, handball exercise amount, running exercise amount, solid ball exercise amount, table tennis exercise amount, badminton exercise amount and baseball exercise amount.

The lower limb type sensor is an electronic sports insole worn in shoes or a sports foot ring worn on ankles to detect the lower limb exercise amount of students, and at least comprises one of football exercise amount, shuttlecock exercise amount, gymnastic exercise amount, running exercise amount and standing long jump exercise amount.

The belt type sensor is an intelligent belt with an acceleration sensor and a fingerprint sensor to detect the trunk exercise amount of the student, and at least comprises one of horizontal bar exercise amount, parallel bar exercise amount and push-up exercise amount; a plurality of motion information acquisition terminals worn by the same student identify the motion type through the combination of motion tracks, and the motion type is distinguished according to the motion type; the type of exercise to be identified includes at least one of a chin-up and a sit-up.

Necklace-type sensors may also be employed. Because girls have no habit of using a belt, the necklace-type sensor is used for girls, and the belt-type sensor is used for boys.

The sports information acquisition terminal is a leather sleeve type sensor (similar to a sports bracelet in structure, but has extremely strong elasticity and can be sleeved on a racket or a pearl rod), and the leather sleeve type sensor is of an annular structure; the annular structure is provided with a perforation part for penetrating through the movable sports tool handle part, the periphery of the annular structure is also provided with a fingerprint sensor, and the sports tool handle part is at least one of a table tennis bat handle, a tennis handle, a badminton handle and a baseball handle; wherein the fingerprint sensor is a human body sensor to verify the identity of the student.

The motion information acquisition terminal is mostly individual wear type structure, can also adopt the motion collection system who locates places such as school, gymnasium, for example closed court, can detect every sportsman's amount of exercise, and these sportsman can converge every sportsman's amount of exercise to the server through the student's movement meter device in this place. When students in fixed places need identity recognition, such as fingerprint confirmation or face recognition, during training or examination in a field, the motion acquisition device distributes the motion amount of the whole time period to each student after averaging the motion amount of the whole time period when recognizing the time difference between entrance and exit. Because the data is not a personal wearable terminal and has errors, the server can add a special identifier to show the difference when storing the data.

The server comprises a student exercise amount reference database and a student exercise amount dynamic database; the student exercise amount reference database comprises an age attribute, a height attribute, a weight attribute, a body type attribute and an exercise part attribute, and the exercise amount reference values of students with different attributes can be changed in the data list. The student exercise amount dynamic database comprises an age attribute, a height attribute, a weight attribute, a body type attribute and an exercise part attribute. In the dynamic data of students, the attribute of the motion part and the motion amount data are dynamically updated in real time and are recorded once at a time. The age attribute, height attribute, weight attribute, body type attribute and are updated regularly, for example, the age is updated once in 1 month or 3 months, and the height is updated with a change of 1 cm. When the weight is changed by 2-5 jin, the body type attribute is updated once when the height and weight data are updated.

The utility model discloses feedback type rope skipping handle can also be used to the student health promotion method, adopts aforementioned student health promotion monitoring system, the promotion method includes following step:

an input step, inputting personal information of students, at least comprising one of fingerprints, palm prints, heart rate waveforms, height, weight, age and body types (the step is equivalent to the process of registration and registration);

a target data generation step, namely selecting corresponding data from the motion quantity reference database according to the target level to generate target data of the student (the step is equivalent to setting a reasonable and practical target, and the step can be carried out after the preliminary detection step);

a preliminary detection step of performing a preliminary physical ability detection on the student, wherein the preliminary physical ability detection at least comprises one of upper limb movement, lower limb movement, trunk movement and vital capacity (the step is equivalent to a movement starting stage, and the physical ability of the student is detected for the first time at a next time);

a monitoring data generation step, wherein motion reference data of each stage is generated according to target data and the selected completion time and is respectively stored in a server and an acquisition terminal (the step is also related to the motion intensity, and if the intensity is medium or low, the time for completing the target is long);

a real-time acquisition step, in which real-time data of the amount of exercise of the student is summarized in a set time period to generate minimum aggregated motion data, which at least includes one of the total amount of exercise, the intensity of exercise and the density of exercise (this step is a process of detecting the amount of exercise in real time, and usually, the minimum aggregated motion data is summarized after completion, and is data uploaded to a server, and the data in the server is updated only when a certain amount of data is needed, such as rope skipping, and at least 100 or 200 hops is needed);

and a motion feedback step, comparing the minimum motion summary data with the motion reference data of the stage to generate feedback signals, wherein the feedback signals at least comprise two types of incomplete feedback signals (for example, voice information or text information similar to 'distance from target and more effort' is sent out) and complete feedback signals (for example, voice information or text information similar to 'very good done and then excited' is sent out).

In the motion feedback step, when the feedback information adopts voice information, each student can adopt self-definition, and the setting is carried out in the modes of online recording or uploading a recording file and the like when or after registration is carried out in the system. Such as the recording of the favorite idol of the student, or the recording of the student's parents. Songs may also be used in place of these recordings.

In other embodiments, when the student does not move within the specified time, the server does not receive the related amount of exercise, and the server sends a reminding message to the student through the feedback type rope skipping handle to remind the student of completing the amount of exercise specified by the school on time.

In other embodiments, the server may further receive registration of the rally team member, and the rally team member with successful registration may record voice information of itself or input text information on line, and the encouraging information may be sent in a broadcast manner or may be sent to the friend separately. The identity of the friend needs to be verified by the student in a manner of sending a request, and then the friend can be obtained. Further, the student may also register as a pull team member.

Preferably, the motion information acquisition terminal stores temporary reference data of the student's motion amount and temporary dynamic data of the student's motion amount in a motion cycle of more than seven days in real time; and the motion information acquisition terminal is synchronously updated with the server at least once every week in real time.

To sum up, the utility model discloses feedback type rope skipping handle is equipped with communication module, display screen and sound generator, can in time upload rope skipping score to the server of rope skipping person (mainly the student) to in time receive the message that the server sent back. The sound pick-up is further adopted, the voice of a user can be uploaded to the server, a guardian who is a minor student can join in a monitoring system of the server, and an information interaction channel is formed between the guardian and the minor student through the feedback type skipping rope handle. The sound generator can adopt a receiver, sound is not emitted outside, personal privacy is protected easily, and interference to outsiders is avoided. The speaker can also be adopted to play in the situation without outsiders. Further, by adopting the SIM card module, a user can directly utilize a network of a mobile network operator to be connected with the server in real time, and the processes of searching and connecting WIFI or Bluetooth are reduced. Furthermore, an acceleration sensor is adopted, so that the exercise intensity of the user during rope skipping can be detected, and more comprehensive statistics and analysis can be performed on the exercise amount of the user by combining the data of the counting sensor.

The technical content of the present invention is further described by the embodiments only, so that the reader can understand it more easily, but the embodiments of the present invention are not limited thereto, and any technical extension or re-creation according to the present invention is protected by the present invention. The protection scope of the present invention is subject to the claims.

Claims (10)

1. The feedback type skipping rope handle comprises a handle shell and a rotating shaft which is rotationally connected to one end of the handle shell; the device is characterized by also comprising a controller arranged in the handle shell, a motion sensor and a communication module which are connected with the controller; the display screen and the sound generator are connected with the controller to display text information and play voice information; the communication module is at least one of a WIFI module and a Bluetooth module; the sound generator is at least one of an earphone and a loudspeaker.

2. The feedback skipping rope handle of claim 1, further comprising a control button and a microphone connected to the controller.

3. The feedback skipping rope handle of claim 2 wherein the motion sensor is a counting sensor disposed at an inner end of the rotating shaft and further comprising a fingerprint sensor connected to a controller.

4. The feedback type rope skipping handle of claim 3, wherein the fingerprint sensor and the earphone are disposed at one end of the handle housing close to the rotation axis, and the display screen, the control button and the microphone are disposed at the other end of the handle housing far from the rotation axis.

5. The feedback skipping rope handle of claim 2, wherein the communication module further comprises a SIM card module; and a card slot for inserting the SIM card of the SIM card is arranged in the handle shell.

6. The feedback type rope skipping handle according to claim 3, further comprising a circuit board disposed in the handle housing, wherein the circuit board is provided with a main control chip, and the main control chip comprises the controller and the Bluetooth module.

7. The feedback skipping rope handle of claim 6, wherein the motion sensor further comprises an acceleration sensor disposed on the circuit board.

8. The feedback type rope skipping handle according to claim 7, wherein the master control chip is an ESP32 type chip; the acceleration sensor is a KXTJ2 type chip.

9. The feedback type rope skipping handle as claimed in claim 7, wherein the counting sensor is three hall switches around the outer circumference of the inner end of the rotating shaft.

10. The feedback type rope skipping handle as claimed in claim 9, wherein one end of the circuit board is disposed at the side of the inner end of the rotating shaft, and the three hall switches are fixed to the circuit board.

Images