CN110368636B

CN110368636B - Electronic agile ladder

Info

Publication number: CN110368636B
Application number: CN201910695272.0A
Authority: CN
Inventors: 胡璞; 洪伟
Original assignee: Wuhan Sports University
Current assignee: Wuhan Sports University
Priority date: 2019-07-30
Filing date: 2019-07-30
Publication date: 2021-01-12
Anticipated expiration: 2039-07-30
Also published as: CN110368636A

Abstract

The invention discloses an electronic agile ladder, which solves the problem of equipment installation and laying by arranging a plurality of sensors, wherein in the training process, a sensing device senses step signals to judge whether a trainer trains according to a correct scheme, an integrated design also facilitates data acquisition and summarization, a plurality of LED lamps have different flicker frequencies and directions in the whole training process, the step agile training is guided to a user according to the bright light by controlling the bright light sequence and the interval time of the signal lamps on a flexible ladder, a host computer is in wireless connection with an external display screen, the time cost of the trainer is saved, the efficiency is improved, the trainer can watch videos at any time to learn in the training process, so that the step training of the trainer can be corrected, and the user can change, derive and innovate a new training scheme according to a scheme in a pool, and the step training scheme is converged into the pool, so that the step training scheme in the pool can be continuously iterated, updated and expanded.

Description

Electronic agile ladder

Technical Field

The invention relates to a speed ladder, in particular to an electronic agile ladder, and belongs to the technical field of exercise auxiliary equipment.

Background

The agile rope ladder is also called as a speed ladder, can be used for training body sensitivity, coordination capacity, shank strength, explosive force, physical strength and the like, is a main tool for foot step sensitivity exercise, and is often adopted in the training of professional basketball, football, badminton and other sports.

Although the existing electronic agile ladder is used more generally, problems still exist in the actual use process, firstly, the prior pace sensitive training is mainly carried out by a method of manual timing and manual data recording, a coach is required to accompany a student all the time, the time cost and the workload of the coach are greatly increased, secondly, the coach uses a stopwatch for timing in the training, the accuracy is not high enough, and the real-time training effect of athletes can be influenced, thirdly, the existing electronic agile ladder is poor in sensitivity and not high enough, and on the basis of the traditional pace sensitive training, an infrared diffuse reflection sensor is embedded to realize accurate judgment and accurate timing of paces, and an LED lamp excitation mechanism is used for guiding the pace training of a trainer.

Disclosure of Invention

The present invention is directed to solving the above problems and providing an electronic agile ladder.

The invention realizes the purpose through the following technical scheme: an electronic agile ladder comprises a ladder plate front outer side sensor, a ladder plate front side LED lamp, a ladder plate front inner side sensor, a ladder rope left outer side sensor, a ladder rope left side LED lamp, a ladder rope left inner side sensor, a ladder rope right side LED lamp, a ladder rope right outer side sensor, a ladder plate rear inner side sensor, a ladder plate rear side LED lamp, a ladder plate rear outer side sensor, an electronic agile flexible ladder, a signal line, a host, a ladder plate and a ladder rope; the left outer side sensor of the ladder rope, the left inner side sensor of the ladder rope, the left LED lamp of the ladder rope, the rear inner side sensor of the ladder board, the rear LED lamp of the ladder board, the rear outer side sensor of the ladder board, the right inner side sensor of the ladder rope, the right LED lamp of the ladder rope, the right outer side sensor of the ladder rope, the front outer side sensor of the ladder board, the front LED lamp of the ladder board, the front inner side sensor of the ladder board, the left outer side sensor of the ladder rope and the left inner side sensor of the ladder board are fixed on the electronic quick flexible ladder by bolts and are in data communication with the host computer by signal lines, the front outer side sensor of the ladder board and the front inner side sensor of the ladder board are positioned between the two front LED lamps of the ladder board, the left outer side sensor of the ladder rope and the left inner side sensor of the ladder rope are arranged between the left LED lamps of the two ladder ropes, the right outer side sensor of the ladder rope and the right outer side sensor of the ladder, the signal line is connected between the electronic agile rope ladder and the host, the host is connected with the wireless terminal, and the ladder boards and the ladder ropes are fixed below the sensors and the LED lamps.

Preferably, in order to solve the problem that equipment fixing laid, at the training in-process, the trainer's step motion step must stride to the other end from induction system's one end, and at this in-process, induction system senses step signal, judges whether the trainer trains according to correct scheme, and the design of integral type also conveniently carries out the collection of data and gathers, outside sensor before the step board, inboard sensor before the step board, outside sensor on the step rope left side, inboard sensor on the step rope right side, outside sensor on the step board right side, outside sensor behind step board and the step board outside sensor pass through the screw and are embedded connection with the quick rope ladder of electron.

Preferentially, for the convenience of training with the speed of lighting up and the order of lighting up of bright lamp guide training person, in whole training process, different training scheme, the flicker frequency and the direction of signal lamp are different, conveniently through the order of lighting up of signal lamp on the control rope ladder, interval time, guide the user and carry out the sensitive training of step according to bright lamp, step front side LED lamp, ladder rope left side LED lamp, ladder rope right side LED lamp and ladder plate rear side LED lamp parallel connection are in the both sides of each corresponding sensor.

Preferably, in order to save coach's time cost, improved efficiency, and guarantee that the training person can watch the video at any time and study at the training in-process to correct the paces training of oneself, the host computer is wireless connection with the peripheral hardware display screen, and the peripheral hardware display screen all is signal connection with user terminal and wireless router.

Preferably, in order to facilitate users to change, derive and innovate new training schemes according to the scheme in the pool and converge the new training schemes into the pool, the pace training schemes in the pool can be continuously iterated, updated and expanded, and the host is provided with a user platform terminal signal interface and is in signal connection with the user platform terminal.

The invention has the beneficial effects that: the electronic agile ladder is reasonable in design, the outer side sensor in the front of the ladder board, the inner side sensor in the front of the ladder board, the outer side sensor in the left side of the ladder rope, the inner side sensor in the right side of the ladder rope, the inner side sensor in the back of the ladder board and the outer side sensor in the back of the ladder board are connected with the electronic agile flexible ladder in an embedded mode through screws, the problem of equipment installation and laying is solved, in the training process, a trainer must stride from one end of an induction device to the other end in a step movement step, in the process, the induction device induces step signals to judge whether the trainer trains according to a correct scheme, the integrated design also facilitates data collection and collection, the LED lamps in the front side of the ladder board, the LED lamps in the left side of the ladder rope, the LED lamps in the right side of the ladder rope and the LED lamps in the back side of the ladder board are connected in parallel to two sides of, in the whole training process, different training schemes and different flashing frequencies and directions of the signal lamps are adopted, so that a user can be guided to carry out step sensitive training according to the lighting by controlling the lighting sequence and the interval time of the signal lamps on the rope ladder conveniently, the host is in wireless connection with an external display screen, and the peripheral display screen is in signal connection with the user terminal and the wireless router, thereby saving the time cost of the trainer, improving the efficiency, ensuring that the trainer can watch videos to learn at any time in the training process, so as to correct the self pace training, a signal interface of a user platform terminal is arranged on the host computer, and is in signal connection with a user platform terminal, so that a user can conveniently change, derive and innovate a new training scheme according to the scheme in the pool, and the step training scheme is converged into the pool, so that the step training scheme in the pool can be continuously iterated, updated and expanded.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic diagram of a single-section detailed structure of the electronic agile rope ladder.

In the figure: 1. outside sensor before the step, 2, step front side LED lamp, 3, inside sensor before the step, 4, outside sensor in the left side of the step rope, 5, step rope left side LED lamp, 6, inside sensor in the left side of the step rope, 7, inside sensor in the right side of the step rope, 8, step rope right side LED lamp, 9, outside sensor in the right side of the step rope, 10, inside sensor behind the step, 11, step rear side LED lamp, 12, outside sensor behind the step, 13, the swift rope ladder of electron, 14, the signal line, 15, the host computer, 16, step and 17, the step rope.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, an electronic agile ladder comprises a ladder board front outer side sensor 1, a ladder board front side LED lamp 2, a ladder board front inner side sensor 3, a ladder rope left outer side sensor 4, a ladder rope left side LED lamp 5, a ladder rope left inner side sensor 6, a ladder rope right inner side sensor 7, a ladder rope right side LED lamp 8, a ladder rope right outer side sensor 9, a ladder board rear inner side sensor 10, a ladder board rear side LED lamp 11, a ladder board rear outer side sensor 12, an electronic agile flexible ladder 13, a signal line 14, a host computer 15, a ladder board 16 and a ladder rope 17; the device comprises a ladder rope left outer side sensor 4, a ladder rope left inner side sensor 6, a ladder rope left side LED lamp 5, a ladder board rear inner side sensor 10, a ladder board rear side LED lamp 11, a ladder board rear outer side sensor 12, a ladder rope right inner side sensor 7, a ladder rope right side LED lamp 8, a ladder rope right outer side sensor 9, a ladder board front outer side sensor 1, a ladder board front side LED lamp 2 and a ladder board front inner side sensor 3 which are fixedly connected through bolts on an electronic agile flexible ladder 13 and are in data communication with a host computer 15 through a signal wire 14, wherein the ladder board front outer side sensor 1 and the ladder board front inner side sensor 3 are positioned between the two ladder board front side LED lamps 2, the ladder rope left outer side sensor 4 and the ladder rope left inner side sensor 6 are arranged between the two ladder rope left side LED lamps 5, the ladder rope right inner side sensor 7 and the ladder rope right outer side sensor 9 are arranged between the two ladder rope right side LED lamps 8, the rear inner side sensor 10 and the rear outer side sensor 12 of the ladder board are fixed between two rear LED lamps 11 of the ladder board, the signal line 14 is connected between the electronic agile flexible ladder 13 and the host computer 15, the host computer 15 is connected with a wireless terminal, and the ladder board 16 and the ladder rope 17 are fixed below the sensors and the LED lamps.

The step front outer side sensor 1, the step front inner side sensor 3, the step left outer side sensor 4, the step left inner side sensor 6, the step right inner side sensor 7, the step right outer side sensor 9, the step rear inner side sensor 10 and the step rear outer side sensor 12 are connected with the electronic agile flexible ladder 13 in an embedded mode through screws, the problem of equipment installation and laying is solved, in the training process, a trainer must stride from one end of the sensing device to the other end in a step movement step, in the process, the sensing device senses a step signal and judges whether the trainer trains according to a correct scheme, the integrated design also facilitates data acquisition and collection, the step front side LED lamp 2, the step left side LED lamp 5, the step right side LED lamp 8 and the step rear side LED lamp 11 are connected in parallel to two sides of each corresponding sensor, and the trainer is guided to train by the lighting speed and the lighting sequence of the lighting lamps, in the whole training process, different training schemes, the flicker frequency and the direction of the signal lamp are different, the user is guided to carry out step sensitive training according to the bright lamp by conveniently controlling the bright lamp sequence and the interval time of the signal lamp on the rope ladder, the host computer 15 is in wireless connection with the peripheral display screen, the peripheral display screen is in signal connection with the user terminal and the wireless router, the time cost of a coach is saved, the efficiency is improved, the trainer can watch videos to learn at any time in the training process so as to correct own step training, a user platform terminal signal interface is arranged on the host computer 15 and is in signal connection with the user platform terminal, the convenience is brought to the user to change, derive and innovate new training schemes according to the scheme in the pool and converge into the pool, and the step training scheme in the pool can be continuously iterated, And updating and expanding.

The working principle is as follows: when the electronic agile ladder is used, in a free exercise mode, the display does not display demonstration videos and is in an inoperative state, a user does not need to exercise according to video demonstration actions, the electronic agile ladder 13 can be used by himself to perform step agile training, the user triggers the sensor at the corresponding position through the in-out frame of the flexible ladder during exercise, the LED lamp at the corresponding position flickers when crossing the boundary of the flexible ladder, in a guide exercise mode, the user sets a training scheme through a user terminal PAD, the user terminal PAD sends the training scheme to the host computer 15 and the display through the wireless router, the display immediately and circularly plays standard step movement agile training videos, the host computer 15 controls the electronic agile ladder 13 to orderly flicker the LED lamps on each bar according to the training scheme so as to prompt and guide the user to complete the standard movement of the steps, and the user can be sensed by the sensor on the bar when crossing the flexible ladder, the host computer 15 records the induction time and sequence of the sensors on each edge strip, judges whether the step movement action of the user is correct or not, sends the result to the wireless router in a wireless data communication mode, and the user terminal PAD receives the feedback information of the host computer 15 through the wireless router and records and displays the score of the user.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. An electronic agile ladder, comprising: the elevator comprises an outer side sensor (1) in front of a ladder plate, an LED lamp (2) on front of the ladder plate, an inner side sensor (3) in front of the ladder plate, a left outer side sensor (4) of a ladder rope, a left LED lamp (5) of the ladder rope, a left inner side sensor (6) of the ladder rope, a right inner side sensor (7) of the ladder rope, a right LED lamp (8) of the ladder rope, a right outer side sensor (9) of the ladder rope, a rear inner side sensor (10) of the ladder plate, an LED lamp (11) on rear of the ladder plate, a rear outer side sensor (12) of the ladder plate, an electronic agile flexible ladder (13), a signal wire (14), a host (15; the device comprises a ladder rope left outer side sensor (4), a ladder rope left inner side sensor (6), a ladder rope left side LED lamp (5), a ladder board rear inner side sensor (10), a ladder board rear side LED lamp (11), a ladder board rear outer side sensor (12), a ladder rope right inner side sensor (7), a ladder rope right side LED lamp (8), a ladder rope right outer side sensor (9), a ladder board front outer side sensor (1), a ladder board front side LED lamp (2) and a ladder board front inner side sensor (3), wherein the twelve components are fixedly connected on an electronic agile flexible ladder (13) through bolts and are in data communication with a host (15) through a signal line (14), the ladder rope front outer side sensor (1) and the ladder board front inner side sensor (3) are positioned between the two ladder board front side LED lamps (2), the ladder rope left outer side sensor (4) and the ladder rope left inner side sensor (6) are arranged between the two ladder rope left side LED lamps (5), the elevator rope right inner side sensor (7) and the elevator rope right outer side sensor (9) are installed between two elevator rope right side LED lamps (8), the elevator plate rear inner side sensor (10) and the elevator plate rear outer side sensor (12) are fixed between two elevator plate rear side LED lamps (11), a signal line (14) is connected between an electronic agile flexible ladder (13) and a host (15), the host (15) is connected with a wireless terminal, and the elevator plate (16) and the elevator rope (17) are fixed below the sensors and the LED lamps.

2. An electronic agile ladder according to claim 1 wherein: the elevator is characterized in that the outer side sensor (1) before the elevator plate, the inner side sensor (3) before the elevator plate, the left outer side sensor (4) of the elevator rope, the left inner side sensor (6) of the elevator rope, the right inner side sensor (7) of the elevator rope, the right outer side sensor (9) of the elevator rope, the rear inner side sensor (10) of the elevator plate and the rear outer side sensor (12) of the elevator plate are connected with the electronic agile flexible ladder (13) in an embedded mode through screws.

3. An electronic agile ladder according to claim 1 wherein: the elevator rope front side LED lamp (2), the elevator rope left side LED lamp (5), the elevator rope right side LED lamp (8) and the elevator plate rear side LED lamp (11) are connected in parallel on two sides of each corresponding sensor.

4. An electronic agile ladder according to claim 1 wherein: the host (15) is in wireless connection with the peripheral display screen, and the peripheral display screen is in signal connection with the user terminal and the wireless router.

5. An electronic agile ladder according to claim 1 wherein: and a user platform terminal signal interface is arranged on the host (15) and is in signal connection with the user platform terminal.