CN112516509A - Step long jump light emitting system based on pressure power generation - Google Patents

Abstract

The invention provides a step-by-step long jump lighting system based on pressure power generation, and belongs to the field of physical exercise and leisure entertainment. The system comprises: the mobile terminal is used for receiving the motion mode selected by the motion personnel and sending the motion mode to the gateway through the server; wherein the motion pattern comprises: a long jump mode and a stride mode; the pressure power generation unit is used for sending the position information and the foot-falling time information of each foot-falling point of the sportsman to the gateway in the movement process of the sportsman and enabling the foot-falling point of the sportsman to emit light; and the gateway is used for controlling the lighting forms of the LED lamps at two sides of the movement area according to the received movement mode and the position information of the feet of the movement personnel, generating movement data according to the position information and the feet falling time information of the feet of the movement personnel after movement is finished, and transmitting the generated movement data to the mobile terminal for display through the server. By adopting the invention, the striding and long jump motions can be automatically monitored.

Description

Step long jump light emitting system based on pressure power generation

Technical Field

The invention relates to the field of physical exercise and leisure entertainment, in particular to a long jump lighting system based on pressure power generation.

Background

Standing long jump is a sport item for developing explosive force and bouncing force of lower limbs, consists of preparatory posture, take-off, flight and landing buffer stages, and becomes a necessary test item for physical tests of junior middle schools, high schools and universities every year. According to the planning of the education department, all test items such as standing long jump and the like are required to be popularized with intelligent instruments comprehensively, and data management software is provided.

At present, long jump training facilities are mostly installed in stadiums as professional physical examination means. However, the urban community lacks long jump facilities in public training places, and mostly directly carries out long jump activities on the flat ground, thus lacking interest and entertainment. In order to meet the requirements of physical exercise and leisure entertainment, the masses create a plurality of interesting folk games, such as 'striding games' related to long jump. The method is characterized in that a line is drawn on the ground in advance to serve as a starting point, participants are divided into an attacking party and a guarding party with the same number of people, the guarding party strides one step first, and meanwhile, a single-foot station can not land stably; the attacker can use hands to keep the opponent and make both feet of the opponent fall to the ground to win the game, and if the opponent does not reach the opponent or the opponent gets off the line, the opponent can lose the game. And the two parties change the attack and defense or continue to stride 2 steps and 3 steps progressively according to the win-win or loss, and the keeping of the prescription always strides one step more than the attacking prescription. Various versions are derived from the game, for example, a finger-guessing link is added, and a finger-guessing winner can stride one step more.

In the prior art, no system for automatically monitoring striding and long jump motions exists.

Disclosure of Invention

The embodiment of the invention provides a step and long jump lighting system based on pressure power generation, which can automatically monitor step and long jump movement.

The embodiment of the invention provides a step-by-step long jump lighting system based on pressure power generation, which comprises: the system comprises a server, a gateway, LED lamps at two sides of a movement area and a pressure power generation unit with built-in LED lamps; wherein the content of the first and second substances,

the mobile terminal is used for receiving the motion mode selected by the motion personnel and sending the motion mode to the gateway through the server; wherein the motion pattern comprises: a long jump mode and a stride mode;

the pressure power generation unit is used for sending the position information and the foot-falling time information of each foot-falling point of the sportsman to the gateway in the movement process of the sportsman and enabling the foot-falling point of the sportsman to emit light;

and the gateway is used for controlling the lighting forms of the LED lamps at two sides of the movement area according to the received movement mode and the position information of the feet of the movement personnel, generating movement data according to the position information and the feet falling time information of the feet of the movement personnel after movement is finished, and transmitting the generated movement data to the mobile terminal for display through the server.

Further, if the sport mode selected by the sporter is a long jump mode, the gateway controls the LED lamps on the two sides of the sport area to light a first color and flicker;

if the sport mode selected by the sporter is the striding mode, the gateway controls the LED lamps on the two sides of the sport area to light in the second color and light normally.

Furthermore, in the moving process of the moving personnel, the pressure power generation unit at the current foot-falling point of the moving personnel is used for converting the pressure applied by the moving personnel into electric energy to supply power for the built-in LED lamp, so that the built-in LED lamp is lightened, the foot-falling point of the moving personnel emits light, the light is extinguished after the light lasts for a plurality of seconds, and meanwhile, the position information and the foot-falling time information of the foot-falling point of the moving personnel are sent to the gateway.

Further, the gateway is powered by solar energy.

Further, the gateway transmits the motion data of the sportsman to the server by using a 5G transmission technology.

Further, when the sport mode selected by the sportsman is a long jump mode and the sportsman performs long jump, the gateway is used for controlling the LED lamps on the two sides of the sport area to stop flashing, controlling the LED lamps on the two sides from the initial position to the current foot-landing position to be all in the first color, and turning off the rest LED lamps on the two sides.

Further, when the sport mode selected by the sportsman is the striding mode and the sportsman strides, the gateway is used for controlling the LED lamps on the two sides from the previous foot-landing position to the current foot-landing position to be all lighted with the second color, and the rest LED lamps on the two sides are turned off.

Further, the mobile terminal is further configured to receive and store body data of the mobile terminal, which is submitted by the mobile terminal before the mobile terminal moves, where the body data includes: height and weight.

Further, the motion data includes: one or more of a movement time, a movement path, a number of strides, a stride distance, and a long jump distance;

the mobile terminal is further used for analyzing the exercise capacity of the sports personnel by combining the body data of the sports personnel, displaying the health activity level of the sports personnel in the current exercise, and providing exercise suggestions and knowledge related to the sports.

Further, the mobile terminal is further configured to compare the motion data of the current sports person with the motion data of other sports persons in the current sports stored in the server, and display the ranking of the current sports.

The technical scheme provided by the embodiment of the invention has the beneficial effects that at least:

in the embodiment of the invention, the piezoelectric technology is taken as a characteristic, the pressure power generation unit, the gateway, the LED lamp, the server and the mobile terminal are combined to establish the step-by-step long jump lighting system based on pressure power generation, so that the step-by-step long jump lighting system has the functions of step-by-step long jump monitoring and footfall prompting, daily leisure sports and entertainment life of community residents are enriched, and the residents experience green and intelligent technologies while physical exercise.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic flow chart of a long jump lighting system based on pressure power generation according to an embodiment of the present invention;

fig. 2 is a schematic layout diagram of a light emitting system for long jump according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, an embodiment of the present invention provides a long jump lighting system based on pressure power generation, including: the system comprises a mobile terminal 1, a server 2, a gateway 3, LED lamps 4 on two sides of a motion area and a pressure power generation unit 5 with built-in LED lamps; wherein the content of the first and second substances,

the mobile terminal 1 is used for receiving the motion mode selected by the motion personnel and sending the motion mode to the gateway 3 through the server 2; wherein the motion pattern comprises: a long jump mode and a stride mode;

the pressure power generation unit 5 is used for sending the position information and the foot-falling time information of each foot-falling point of the sportsman to the gateway 3 in the movement process of the sportsman and enabling the foot-falling point of the sportsman to emit light;

and the gateway 3 is used for controlling the lighting forms of the LED lamps 4 at the two sides of the movement area according to the received movement mode and the position information of the feet of the movement personnel, generating movement data according to the position information and the feet falling time information of the feet of the movement personnel after movement is finished, and transmitting the generated movement data to the mobile terminal 1 through the server 2 for display.

The step-by-step long-jump light-emitting system based on pressure power generation disclosed by the embodiment of the invention is characterized in that a piezoelectric technology is taken as a characteristic, and the pressure power generation unit, the gateway, the LED lamp, the server and the mobile terminal are combined to establish the step-by-step long-jump light-emitting system based on pressure power generation, so that the step-by-step long-jump light-emitting system has the functions of step-by-step long-jump monitoring and foothold prompting, the daily leisure sports and entertainment life of community residents are enriched, and the residents experience green and intelligent technologies while doing physical exercise.

For a better understanding of the present invention, a mobile terminal, a server, a gateway, LED lamps at both sides of a moving area, and a pressure generating unit having the LED lamps built therein are explained in detail as shown in fig. 2, wherein,

(1) pressure power generation unit with built-in LED lamp

In this embodiment, the pressure power generation unit includes: a stacked pressure generating element (e.g., a stacked piezoelectric ceramic) and a built-in LED lamp.

In this embodiment, the working principle of the pressure power generation unit is as follows: when external pressure is applied, the stack type pressure power generation element converts the external pressure into electric energy to supply power to an LED lamp arranged in the pressure power generation unit, so that the load position (foot point) of a person can emit light to visually prompt the sporter. Meanwhile, the pressure power generation unit sends the position information of the foot-landing point where the person is located and the foot-landing time information to the gateway.

In this embodiment, in the moving process of the moving person, the pressure power generation unit at the current foot-falling point of the moving person is used for converting the pressure applied by the moving person into electric energy to supply power to the built-in LED lamp, so that the built-in LED lamp is turned on, the foot-falling point of the moving person emits light, the light is turned off after the light lasts for several seconds (for example, 2s), and meanwhile, the position information and the foot-falling time information of the foot-falling point of the moving person are sent to the gateway.

(2) LED lamp on two sides of movement area

In this embodiment, the LED lamps on both sides of the movement area are low power consumption LED lamps, and the LED lamps on both sides are powered by solar energy.

(3) Gateway

In this embodiment, the gateway is powered by solar energy.

In the embodiment, a sporter selects a motion mode in a mobile terminal, and the selected motion mode is sent to a gateway through a server; wherein the motion pattern comprises: a long jump mode and a stride mode.

In this embodiment, the gateway controls the lighting forms of the LED lamps on the two sides of the movement area through the built-in single chip microcomputer according to the movement mode selected by the sporter, specifically:

if the sport mode selected by the sporter is the long jump mode, the gateway controls the LED lamps at two sides of the sport area to light a first color (for example, green) and flicker;

if the sport mode selected by the sporter is the striding mode, the gateway controls the LED lamps on the two sides of the sport area to be in the second color (yellow) and to be normally on.

In this embodiment, the built-in single chip microcomputer in the gateway needs to update the lighting forms of the LED lamps on the two sides of the movement area according to the movement of the moving person, specifically:

when a sportsman jumps far, the LED lamps arranged in the pressure power generation unit at the foot position of the sportsman are turned on, the LED lamps are turned off after the lamp-on time lasts for 2s, meanwhile, the gateway controls the LED lamps at two sides of the movement area to stop flashing, the LED lamps at two sides from the initial position to the current foot-on position all light the first color, and the rest LED lamps at two sides are turned off. Therefore, the number of the lighted LED lamps on the two sides can intuitively show the long jump distance, and the built-in LED lamps in the pressure power generation unit can intuitively show the long jump foot position;

when the sporter strides, the LED lamps arranged in the pressure power generation unit at the foot falling position are turned on, the lamp lighting time lasts for 2s and then is turned off, meanwhile, the gateway controls the LED lamps on the two sides from the last foot falling position to the current foot falling position to light the second color, and the rest LED lamps on the two sides are turned off. Therefore, the number of the lighted LED lamps on the two sides can visually represent the distance and the length of the stride, and the built-in LED lamps in the pressure power generation unit can visually represent the position of the foot falling point of the stride.

In this embodiment, the gateway is further configured to generate motion data according to the position information of the foot placement point of the sportsman and the foot placement time information after the end of the motion, and transmit the generated motion data to the server by using a 5G transmission (for example, 5G wireless transmission) technology, where the motion data includes: one or more of movement time, movement path, number of strides, stride distance, and jump distance to enable monitoring of stride/jump time, stride/jump distance, stride/jump path, and stride number.

(4) Server

In this embodiment, the server is mainly used to store various types of data generated by the system, form a database, and implement interaction with the gateway and the mobile terminal.

(5) Mobile terminal

In this embodiment, the mobile terminal may be a mobile terminal of a mobile phone of a sportsman, specifically a program on the mobile terminal of the mobile phone of the sportsman, which is abbreviated as: and (5) mobile terminal applet of the mobile phone.

In this embodiment, the applet is a direct platform that interfaces server data with the sports personnel. The sports personnel use the mobile terminal of the mobile phone to scan the code and connect with the small program, before the sports personnel move, the body data such as height, weight and the like of the sports personnel are input and stored, the movement ability of the sports personnel is conveniently analyzed by combining the movement data after the movement is finished, the levels (excellent, good and poor) of the health activity of the movement are displayed, and the movement suggestion and the knowledge related to the sports movement are provided.

In this embodiment, the sporter selects a motion mode at the mobile terminal of the mobile phone, sends the selected motion mode to the server, and the server sends the selected motion mode to the gateway.

In this embodiment, the sporter can also set the use duration on the applet, and when the use duration is close to the end, the applet can prompt.

In this embodiment, after the movement is finished, the generated movement data is transmitted to the server by the single chip in the gateway, and is finally displayed on the mobile terminal.

In this embodiment, the mobile terminal is further configured to compare the motion data of the current sporter with the motion data of other sporters in the current sport stored in the server, and display the rank of the current sport, so as to increase interest.

Next, the operation flow of the step-by-step long jump lighting system based on pressure power generation will be briefly described:

when the sporter prepares to exercise, before the sporter exercises, the body data of the sporter is input for storage through the mobile terminal code scanning connection small program of the mobile phone, and the analysis is conveniently carried out by combining the exercise data with the database after the sporter exercises; simultaneously, a motion mode is selected at the mobile terminal of the mobile phone, the LED lamps at the two sides are lightened according to the selected motion mode, and if the long jump mode is selected, the LED lamps at the two sides twinkle in green; if the stepping mode is selected, the LED lamps at two sides are always on.

When the sportsman strides or jumps far away, the pressure power generation unit turns into the electric energy with the atress and supplies power for built-in LED lamp, plays the suggestion effect, lets the sportsman have a audio-visual sense to the jump distance of oneself or the distance of striding. In the process of movement, the pressure power generation units of the first and second … N foot-falling points of the sporter send the position information and the foot-falling time of the foot-falling points to the gateway, and the singlechip in the gateway generates movement data according to the received position information and the foot-falling time of the foot-falling points, transmits the movement data to the server and finally displays the movement data on the mobile terminal.

And comparing the motion data of the current sporter with the motion data of other sporters in the current sport stored in the server through the mobile terminal, and displaying the ranking of the current sport.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A pressure power generation-based long jump lighting system, comprising: the system comprises a mobile terminal, a server, a gateway, LED lamps at two sides of a motion area and a pressure power generation unit with built-in LED lamps; wherein the content of the first and second substances,

the mobile terminal is used for receiving the motion mode selected by the motion personnel and sending the motion mode to the gateway through the server; wherein the motion pattern comprises: a long jump mode and a stride mode;

the pressure power generation unit is used for sending the position information and the foot-falling time information of each foot-falling point of the sportsman to the gateway in the movement process of the sportsman and enabling the foot-falling point of the sportsman to emit light;

and the gateway is used for controlling the lighting forms of the LED lamps at two sides of the movement area according to the received movement mode and the position information of the feet of the movement personnel, generating movement data according to the position information and the feet falling time information of the feet of the movement personnel after movement is finished, and transmitting the generated movement data to the mobile terminal for display through the server.

2. The pressure power generation-based step jump lighting system according to claim 1, wherein if the sport mode selected by the sporter is the long jump mode, the gateway controls the LED lights at both sides of the sport area to light a first color and flash;

if the sport mode selected by the sporter is the striding mode, the gateway controls the LED lamps on the two sides of the sport area to light in the second color and light normally.

3. The light-emitting system for long jump based on pressure power generation of claim 1, wherein during the movement of the sportsman, the pressure power generation unit at the current foothold of the sportsman is used for converting the pressure applied by the sportsman into electric energy to supply power to the built-in LED lamp, so that the built-in LED lamp is turned on, the foothold of the sportsman emits light, the lighting is turned off after a plurality of seconds, and meanwhile, the position information and the foothold time information of the foothold of the sportsman are sent to the gateway.

4. The pressure power generation-based long jump lighting system of claim 1 wherein the gateway is powered by solar energy.

5. The pressure power generation-based strided long jump lighting system according to claim 1, wherein the gateway transmits the sports data of the sporter to the server using 5G transmission technology.

6. The pressure power generation-based step jump lighting system according to claim 2, wherein when the sports mode selected by the sporter is the long jump mode and the sporter performs long jump, the gateway is configured to control the LED lamps at two sides of the sports area to stop flashing, control all the LED lamps at two sides from the starting position to the current foothold position to be in the first color, and turn off the rest LED lamps at two sides.

7. The light emitting system for long jump based on pressure power generation as claimed in claim 2, wherein when the sports person selects the sports mode as the striding mode and the sports person strides, the gateway is configured to control the LED lamps on two sides from the previous foothold position to the current foothold position to be all lit with the second color, and the rest LED lamps on two sides are turned off.

8. The pressure power generation-based long jump lighting system according to claim 1, wherein the mobile terminal is further configured to receive and store body data of an athlete himself submitted by the athlete before the athlete moves, wherein the body data includes: height and weight.

9. The pressure power generation-based strided long jump lighting system according to claim 8, wherein the motion data comprises: one or more of a movement time, a movement path, a number of strides, a stride distance, and a long jump distance;

the mobile terminal is further used for analyzing the exercise capacity of the sports personnel by combining the body data of the sports personnel, displaying the health activity level of the sports personnel in the current exercise, and providing exercise suggestions and knowledge related to the sports.

10. The light emitting system for long jump based on pressure power generation as claimed in claim 1, wherein the mobile terminal is further configured to compare the motion data of the current sporter with the motion data of other sporters in the current sport stored in the server, and display the ranking of the current sport.

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