CN219764452U - Running rhythm training speed adapter - Google Patents

Abstract

The utility model discloses a running rhythm training speed adapter, which comprises a lamp belt controller, a lamp belt, a mobile terminal and a power supply, wherein the lamp belt controller is connected with the lamp belt controller; the power supply provides working power for the lamp strip controller and the lamp strip, and the lamp strip is paved along the inner side edge of the runway; the lamp strip controller is connected with the lamp strip to transmit the instruction sent by the lamp strip controller to the lamp strip; the mobile terminal is provided with a storage unit for storing the average speed distribution value, and the mobile terminal transmits the data in the storage unit to the lamp band controller in a wireless mode. In the running process, the average speed distribution value of the professional athlete is used as the basis of running rhythm training, namely the flowing speed of the lighted lamp is automatically adjusted according to the average speed distribution value, so that a trainer is guided to chase the lighted lamp, and the real-time running rhythm of the trainer is guided.

Description

Running rhythm training speed adapter

Technical Field

The utility model relates to training equipment, in particular to a running rhythm training speed adapter.

Background

The speed of the running training has great influence on the training effect, if the speed of the running training is too fast, the physical energy consumption is too high to smoothly finish the training, otherwise, if the speed of the running training is too slow, the training effect may not meet the expectations, so that how to reasonably distribute the physical energy in the running process is important. At present, the main stream speed matching scheme is as follows: setting a speed matching scheme by a trainer at an exercise APP in an exercise bracelet or a mobile phone, and obtaining a running state by checking the current speed and the speed matching value in the running process so as to adjust the running rhythm; however, the trainer needs to wear a mobile phone or a bracelet in the running process, and also needs to check the numerical value of equipment in the running process, so that the scheme is inconvenient to use, and the speed matching value cannot be obtained in real time in the running process.

Based on this, a intelligent terminal system for running speed matching training is designed with a patent number of CN204543462U, and the main scheme is that a plurality of lamp posts are paved at the edge of a running track, the training is conducted in a rhythmic mode through the bright effect of the lamp posts, namely the speed matching is conducted through the bright and dark of the lamp posts, and the running time of a trainer is recorded so as to facilitate analysis after the training. The above scheme replaces the role of the collar runner in the traditional training, but has the following problems: 1. a plurality of lamp posts are paved on the runway, each lamp post is independently controlled and not connected with each other, and two adjacent lamp posts have a longer interval distance, so that each lamp post jointly forms a section-by-section reminding, and the real-time speed matching rhythm of a trainer cannot be guided; 2. each lamp post is large in size, and is easy to occupy space when placed on a runway, so that popularization and use are inconvenient.

The present utility model has been made in view of the above, and has been made in view of the above.

Disclosure of Invention

The utility model aims to provide a running rhythm training speed adapter which can guide a trainer to match speed rhythm in real time and obtain real-time speed matching values of the trainer, and the light belt occupies a small area, so that the running rhythm training speed adapter is convenient to popularize and use.

To achieve the above object, the solution of the present utility model is:

a running rhythm training speed adapter comprises a lamp belt controller, a lamp belt, a mobile terminal, a power supply, a speed sensor and a speed acquisition and controller; the power supply provides working power for the lamp strip controller and the lamp strip, and the lamp strip is paved along the inner side edge of the runway; the speed sensor and the speed acquisition and controller are both arranged in the wearable watch, and the speed sensor is connected with the speed acquisition and controller through a first data line and used for transmitting acquired real-time speed data of a trainer to the speed acquisition and controller; the speed acquisition and controller wirelessly transmits the acquired real-time speed data to the lamp strip controller through a wireless communication module; the lamp strip controller is connected with the lamp strip through a second data line and is used for transmitting an issued instruction to the lamp strip; the mobile terminal comprises a display unit, a storage unit and a setting unit, wherein the storage unit is provided with average speed distribution values of a plurality of stages in the running process, and the mobile terminal transmits data in the storage unit to the lamp strip controller through a wireless communication module.

The wearable watch is provided with a display screen, and the speed acquisition and controller is connected with the display screen through a data line III and used for transmitting the obtained average speed distribution value and real-time speed data of each stage to the display screen for display.

And taking the running direction of the trainer as the front-to-back direction, wherein each LED lamp is lighted by flowing from front to back in sequence.

The lighting flow speed of each LED lamp is automatically adjusted along with the speed matching value of each stage.

The luminous color of each LED lamp is changed corresponding to the speed matching value of each stage.

The power supply is a 24V mobile power supply.

After the structure is adopted, the utility model has the following beneficial effects:

1. by adopting the arrangement of the utility model, in the running process, the average speed distribution value of the professional athlete in each running stage is used as the basis of running rhythm training, namely the flowing speed of the lighting lamp is automatically regulated according to the average speed distribution value of each running stage of the collected professional athlete, so as to guide the trainer to chase the lighting lamp and then guide the real-time running rhythm of the trainer; the speed sensor is adopted to collect real-time speed matching values of the trainers, the real-time speed matching values are transmitted to the lamp band controller through the collection and control device and are uploaded to the mobile terminal through the lamp band controller, so that the trainers and coaches can conveniently compare the real-time speed matching values with average speed matching values during training, and the practical training effect of the trainers can be conveniently known; and because the lamp area is small, can tile at runway inboard edge, so occupation of land is less, and convenient popularization and use.

2. Each running stage, for example, 400m running, takes dividing four stages as an example, and each progressive average speed distribution value of 100m, the light-emitting colors of the LED lamps corresponding to the four running stages are different, so that a trainer is reminded of having entered the speed distribution value of the next stage.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic representation of the use of the present utility model.

In the figure:

1-a lamp band controller; 2-a lamp strip;

3-a mobile terminal; 4-a power supply;

5-a speed sensor; 6-speed acquisition and controller;

7-wearable watch.

Detailed Description

In order to further explain the technical scheme of the utility model, the utility model is explained in detail by specific examples.

A running rhythm training speed adapter, as shown in fig. 1-2, comprises a light belt controller 1, a light belt 2, a mobile terminal 3, a power supply 4, a speed sensor 5 and a speed acquisition and controller 6. The power supply 4 provides working power for the lamp strip controller 1 and the lamp strip 2, and the lamp strip 2 is paved along the inner side edge of the runway in sequence; the speed sensor 5 is connected with the speed acquisition and controller 6 through a data line, so as to transmit the acquired speed data of the running of the trainer to the speed acquisition and controller 6 in real time through the data line I; the speed acquisition and controller 6 transmits the acquired speed data to the lamp strip controller 1 through the wireless communication module; the lamp strip controller 1 is connected with the lamp strip 2 through a data line II so as to transmit an issued instruction to the lamp strip 2 through the data line II; the mobile terminal 3 comprises a display unit, a setting unit and a storage unit, wherein the storage unit is provided with average speed distribution values of a plurality of stages, and the mobile terminal 3 transmits data in the storage unit to the lamp band controller 1 through a wireless communication module.

Specifically, the power output end of the power supply 4 is connected with the power input end of the lamp strip controller 1, and the power output end of the lamp strip controller 1 is connected with the lamp strip 2, so as to supply power to the lamp strip controller 1 and the lamp strip 2. The power supply 4 is a conventional power supply, and in this embodiment, a 24V mobile power supply is taken as an example.

The runway provided by the light strip 2 adopts the conventional runway, such as 400m runway commonly used in schools or track and field events. In this embodiment, the light strip 2 is a conventional programmable light strip, for example, a WS2812 light strip, and there are 30 LED lights 22 per meter in the light strip 2, and the light strip 2 is a waterproof light strip.

The above-mentioned lamp band controller 1 has the functions of controlling the lamp band, interacting with the mobile terminal 3 and communicating with the speed acquisition and controller, the lamp band controller 1 with the above-mentioned functions is an existing conventional controller, for example, the lamp band controller 1 is an ESP32 controller integrated with a conventional Wi-Fi module, wherein the pin 17 of the lamp band controller 1 is used as an IO port for controlling the lamp band 2, and the Wi-Fi interface of the lamp band controller 1 is connected with the wireless communication port of the mobile terminal so as to interact with the mobile terminal 3 through Wi-Fi, and the communication mode of the lamp band controller 1 and the ESP32 controller is the existing conventional UDP communication; on the one hand, the average speed distribution value of a plurality of stages of the storage unit in the mobile terminal 3 is called and wirelessly transmitted to the lamp strip controller 1, and the lamp strip controller 1 sends out a control instruction according to the average speed distribution value of each stage so as to automatically adjust the flow speed of each LED lamp 22 of the lamp strip 2 according to the average speed distribution value; on the other hand, the light band controller 1 transmits the received real-time running speed of the trainer to the mobile terminal 3 through Wi-Fi therein.

The speed sensor 5 and the speed acquisition and controller 6 are both arranged in the wearable watch 7, and in this embodiment, the wearable watch 7 has a watch structure, i.e. the wearable watch 7 is worn on the wrist of the trainer. The speed sensor 5 is used for detecting the running speed of a trainer, the speed sensor 5 detects the real-time running speed of the trainer and transmits the real-time running speed to the speed acquisition and controller 6 through the first data line, and the wireless communication module is an existing conventional WIFI module and adopts conventional UDP communication, so that the real-time running speed data acquired by the speed acquisition and controller 6 are transmitted to the light belt controller 1 through the wireless communication module, and meanwhile, the light belt controller 1 transmits an average speed distribution value to the speed acquisition and controller 6 through the wireless communication module. Preferably, the wearable watch 7 is provided with a display screen, and the speed acquisition and controller 6 is connected with the display screen through a data line III, so that the acquired real-time running speed data (i.e. real-time speed data) and the received average speed distribution value of the current stage are transmitted to the display screen through the data line III, and the speed acquisition and controller is convenient for a trainer to check.

Further, the speed sensor 5 is an existing conventional speed sensor, for example, the speed sensor 5 in this embodiment is an existing conventional GPS capable of giving speed data, for example, a chip of the family micro Beidou navigation system of the GPS/BDS unit AT6558+MAX2659, which is manufactured by M5 Stack; the speed acquisition and controller 6 is a conventional controller integrated with a touch screen, i.e. the display screen described above is a touch screen, for example a controller of model M5Stack Core2 AWS.

The mobile terminal 3 is a conventional mobile phone or ipad with a client, and is illustrated by taking the mobile terminal as a smart phone sold in the market as an example, the smart phone is provided with a corresponding client, a storage unit in the smart phone is the storage unit, the display unit is a display screen of the smart phone, and the setting unit corresponds to a plurality of buttons capable of touching the screen in the corresponding client, where each button includes a preparation button, a start button, a reset button and a selection button. The trainer or coach can perform data transmission, set running stage number and distance, color selection of the lamp band at each stage, data display, control of the lamp band 2 and running rhythm training scheme selection through the corresponding client of the mobile terminal 3, and the client provided with the functions in the mobile terminal 3 is a client which can be obtained by the conventional operation, for example, in the embodiment, a conventional Blynk is adopted as a development platform of the client of the mobile terminal, so that the client with the functions can be obtained.

Further, in this embodiment, the average speed distribution value of the multiple stages is collected, for example, the running distance is divided according to each 100m (the number of divided meters can be set according to the actual situation) in the running process of a plurality of professional athletes is collected, then each professional athlete wears the wearable table 7, then each wearable table 7 is connected with the mobile terminal 3 by WiFi, then the speed value of each professional athlete in each 100m is recorded in the client of the mobile terminal 3, the client of the mobile terminal 3 calculates the average speed of all athletes in each 100m, that is, the average speed distribution value of each stage, then the mobile terminal 3 transmits the average value of each stage to the lamp band controller 1, and the lamp band controller 1 uses the transmitted average value as the average speed distribution value; for another example, a coach in every 100m adopts a conventional stopwatch to acquire a time interval of every 100m of each professional athlete, then the speed in the corresponding 100m is obtained through manual calculation, and then the speed is input into a corresponding client; for another example, the trainer combines the self quality of the trainer according to the long-term teaching experience, sets the average speed distribution value and inputs the average speed distribution value into the corresponding client. The first collection mode is the conventional technology, for example, the conventional method sets a distance target for an outdoor running bar in an exercise health APP, and an average speed matching value can be obtained from a chart.

In addition, other running rhythm training schemes, such as running rhythm training schemes consisting of basic running schemes of straight running, curve running, uniform running, turning back running, accelerating running, decelerating running, variable speed running, directional running and the like, can be designed besides the hundred-meter coiled running, and the running rhythm training schemes can be collected in the conventional mode and are not described herein.

The specific working process of the running rhythm training speed adapter provided by the utility model is as follows: taking 400m as an example for illustration, before the beginning of the preparation, the trainer wears the wearable table 7 and prepares the running, the trainer selects a use scheme (namely 400m sprinting) in the client of the mobile terminal 3, the mobile terminal 3 transmits the use scheme to the lamp band controller 1 in a wireless communication mode through intrinsic WiFi, after the mobile terminal 3 and the lamp band controller 1 conduct data interaction, the lamp band controller 1 transmits data to the lamp band 2 through a data line II, then the trainer starts running rhythm training along with the on-off and flowing speed of the lamp band 2, the wearable table 7 worn by the trainer displays real-time speed data in the display screen of the trainer during the training, and meanwhile, the lamp band controller 1 transmits the current average speed allocation value to the acquisition and controller 6 in a wireless mode and displays the current average speed allocation value in the display screen; meanwhile, the wearable table 7 transmits the real-time speed data to the client of the mobile terminal 3 in a wireless mode, and the mobile terminal 3 displays the real-time speed data and the average speed allocation value of the current trainer; after the trainer runs 100m before running, the light belt controller 1 controls the light belt 2 to enter the next stage through the data line II, namely, the light belt 2 corresponds to the part of the LED light of the 100m-200m stage from front to back, the flow speed of the part of the light belt is adjusted according to the average speed distribution value of 100m-200m, the light belt luminous color of the stage is adjusted and changed, so that the trainer is reminded to enter the next stage, the trainer is guided to train according to the new running rhythm, and the trainer continuously completes the running rhythm training of each stage.

After the training is finished, the average speed distribution value of each stage and the real-time speed data of the trainer in the running process are recorded in the client side of the mobile terminal 3, so that the trainer can analyze the training result after the training is finished.

The foregoing description is only of the preferred embodiments of the present utility model, and all equivalent changes and modifications that come within the scope of the following claims are intended to be embraced therein.

Claims (3)

1. The utility model provides a running rhythm training speed adapter which characterized in that: the system comprises a lamp strip controller, a lamp strip, a mobile terminal, a power supply, a speed sensor and a speed acquisition and controller; the power supply provides working power for the lamp strip controller and the lamp strip, and the lamp strip is paved along the inner side edge of the runway; the speed sensor and the speed acquisition and controller are both arranged in the wearable watch, and the speed sensor is connected with the speed acquisition and controller through a first data line and used for transmitting acquired real-time speed data of a trainer to the speed acquisition and controller; the speed acquisition and controller wirelessly transmits the acquired real-time speed data to the lamp strip controller through a wireless communication module; the lamp strip controller is connected with the lamp strip through a second data line and is used for transmitting an issued instruction to the lamp strip; the mobile terminal comprises a display unit, a storage unit and a setting unit, wherein the storage unit is provided with average speed distribution values of a plurality of stages in the running process, and the mobile terminal transmits data in the storage unit to the lamp strip controller through a wireless communication module.

2. A running cadence training speed kit according to claim 1, wherein: the wearable watch is provided with a display screen, and the speed acquisition and controller is connected with the display screen through a data line III and used for transmitting the obtained average speed distribution value and real-time speed data of each stage to the display screen for display.

3. A running cadence training speed kit according to claim 1, wherein: the power supply is a 24V mobile power supply.