CN202410090U - Dynamic monitoring system for trampolining - Google Patents

Abstract

The utility model discloses a dynamic monitoring system for trampolining and aims to provide a dynamic monitoring system for trampolining, wherein the dynamic monitoring system is easy to set up, simple to operate, high in monitoring precision, convenient to analyze and post-process. The dynamic monitoring system is characterized by comprising a sensor, a data acquisition device and a digital signal processor, wherein the sensor is used for monitoring a motion state signal; the data acquisition device is used for converting the motion state signal to a digital signal; the digital signal processor is capable of processing and controlling the digital signal; the sensor for monitoring the motion state signal is a boundary sensing sensor, is respectively aligned to boundaries of a trampoline and is erected around the trampoline; the boundary sensing sensor is connected with the data acquisition device through a data line; and the data acquisition device is connected with the digital signal processor through a data line and an adapter. The dynamic monitoring system for trampolining can be used for solving the technical problems that the difficulty and the workload of manually monitoring state parameters of trampolining are large, the monitoring precision is poor and monitoring data still needs to be further analyzed and processed.

Description

The trampolining dynamic monitoring system

Technical field

The utility model relates to a kind of motion monitoring system, particularly relates to a kind of trampolining dynamic monitoring system.

Background technology

Run duration and speed have direct influence to the result of motion in trampolining; Sportsman's impetus on the net can change along with the change of motion state during trampolining simultaneously, is the best material of trampolining training and result of the match analysis so monitor athletic run duration with the moving region.

The motion state monitoring of trampolining is main at present to rely on manual work to carry out; The monitoring content comprise press net time, duration of passage, net spee, hauling speed, pressure net total time, the total time of soaring, motion total time, times of exercise, left-right and front-back get over state parameters such as line fault; Monitoring difficulty and workload is big, monitoring accuracy is low, Monitoring Data still need further to analyze and handle.

The utility model content

The utility model technical problem to be solved provides and a kind ofly is easy to build, simple to operate, monitoring accuracy is high and be convenient to analyze and the trampolining dynamic monitoring system of post-processed.

For solving the problems of the technologies described above; The utility model provides a kind of trampolining dynamic monitoring system; It is characterized in that: comprise the sensor of monitoring motion state signal, status signal is transformed into the data acquisition unit of data signal and has digital signal processing capability and the digital signal processor of control ability; The border detection sensor that the sensor of said monitoring motion state signal crosses the border and breaks rules for the monitoring trampolining; Be set up in around the trampoline with each bar boundary alignment of trampoline respectively, said sensor links to each other with data acquisition unit through data wire, and data acquisition unit is connected with digital signal processor with adapter via data wire.

Aforesaid trampolining dynamic monitoring system; It is characterized in that: the sensor of said monitoring motion state signal also comprises the detection sensor that suppresses that is used to monitor the trampolining dynamic parameter; The said detection sensor that suppresses is evenly distributed in a side of trampoline with the arrangement mode of many rows vertical alignment, and the said detection sensor that suppresses links to each other with data acquisition unit through data wire.

Aforesaid trampolining dynamic monitoring system is characterized in that: said border detection sensor with suppress detection sensor and be correlation type photoelectric sensor.

Aforesaid trampolining dynamic monitoring system is characterized in that: said data acquisition unit adopts pci interface High Speed I card.

Aforesaid trampolining dynamic monitoring system is characterized in that: digital signal processor is a computer.

Adopt technique scheme, the beneficial effect that the utility model can reach is:

Can monitor multinomial trampolining state parameter simultaneously through sensor, monitoring accuracy is high and be convenient to analyze and handle, and whole trampolining dynamic monitoring system is easy to build, simple to operate.

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is the adjustment module faceplate figure of system of the utility model;

Fig. 3 is the software of the utility model block diagram of designing program;

Fig. 4 is the software program panel figure of the utility model;

Fig. 5 is the software program name input module panel figure of the utility model;

Fig. 6 is the software program time showing module faceplate figure of the utility model;

Fig. 7 is the software program image display module panel figure of the utility model;

Fig. 8 is the software program of the utility model determination module panel figure that crosses the border;

Fig. 9 is the software program process data display module panel figure of the utility model;

Figure 10 is the software program data memory module flow chart of the utility model;

Figure 11 is the software program control module panel figure of the utility model.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is further described:

As shown in Figure 1, around trampoline, set up sensor, correctly connect data wire and power supply, wherein, and 4 of border detection sensors, like border detection sensor 1, four edges circle of the trampoline that aligns respectively is used for detecting the fault state parameter that crosses the border; Suppress 6 of detection sensors, as suppress detection sensor 2, two rows that are vertical alignment are evenly distributed in a side of trampoline, are used to detect each item and suppress state parameter.Said sensor select for use can detect distance for 15m, can detect the correlation type photoelectric sensor of φ 12mm opaque article.

Said sensor can obtain immediately in the trampolining each item motion state parameters as: press net time, duration of passage, net spee, hauling speed, pressure net total time, the total time of soaring, motion total time, times of exercise, left-right and front-back get over line fault etc.Said sensor is connected with data acquisition unit 3 through data wire and exports electric quantity signal; Data acquisition unit 3 adopts pci interface High Speed I card; Have the IO mouth that independently to import and the digital I of standard; Electric quantity signal to sensor input carries out shaping filter, is processed into data signal that digital signal processor 4 can discern to analyze and to handle, and data acquisition unit 3 is connected with adapter through data wire with digital signal processor 4.

Said digital signal processor 4 adopts CPU frequency to reach more than the 2.8G; Or adopt more than the double-core 1.4G; Independent video card is arranged, more than the internal memory 512MB, possess the computer of the above operating system of windows2000; Each item state parameter to trampolining under control of software is gathered, stores, is shown and analyze, and shows intuitively with the form of numeral or icon.

As shown in Figure 2, with above-mentioned detection sensor, data acquisition unit and digital signal processor reach in the correct order the position set up finish after, the energising; Setting up of sensor verified: operation " adjustment of trampoline monitoring system " software, block in the place ahead of sensor, if the corresponding LED lamp of this sensor extinguish promptly show set up correct; Otherwise carry out the centering adjustment; Till lamp is bright,, can not carry out system monitoring if there is lamp not extinguish.

After the sensor adjustment is accomplished, move trampolining dynamic monitoring system software on computers, the software block diagram of designing program is as shown in Figure 3, and figure is as shown in Figure 4 for the software program panel.

Trampolining dynamic monitoring system software can be divided into seven modules according to function, is respectively: name input module, time showing module, image display module, the determination module that crosses the border, process data display module, data memory module and program controling module.

As shown in Figure 5, the effect of name input module is personnel's name that input will be carried out the trampolining dynamic monitoring, and system can be that file header is preserved the data in the motion process get off with this name, is provided with post analysis and uses.During running software, after pressing " beginning " key, system can eject the name input module automatically, behind the input name, by " confirming button ", can carry out each item monitoring action of motion process immediately.

As shown in Figure 6, the effect of time showing module is total time, pressure net total time and the total time of soaring of record motion process.These three times show with digital mode, press net total time also to show with the mode of block diagram total time with soaring simultaneously, and are clear, are convenient to coach or judge's intuitive judgment.

As shown in Figure 7, the effect of image display module be with press each time in the motion process net time, duration of passage and the speed of net, hauling show with graphics mode intuitively, be convenient to observe and analyze.Wherein pressing net time and duration of passage is to show that with cylindricality be convenient to lateral comparison, hodograph shows with the mode of broken line, is convenient to analyze Changing Pattern.The abscissa of all figures is corresponding one by one simultaneously, is convenient to comparison and the analysis of different parameters time, and visual in image, it is the reproduction of the visualization of motion process.

As shown in Figure 8, the effect of the determination module that crosses the border is that process and number of times that the sportsman jams on red boundary line are at the volley noted, as the true foundation of passing judgment on.When occurring crossing the border, corresponding LED lamp becomes redness, writes down spanned record simultaneously one time.

As shown in Figure 9; The effect of process data display module is with the pressure net time in the motion process, duration of passage, net spee and hauling speed and concentrate in the form with the mode of data and show; Data are straightforward, are convenient to analyze and judge, can also show the number of times of monitoring simultaneously.The number of times of noting monitoring is the number of times between soaring for twice, when counting, will note distinguishing.Need test 10 technology like certain soars; Press " confirming " button of name input module when certain soars the sportsman; Promptly enter into the order monitoring this moment; Can carry out oral counting when soaring (also to be as the criterion), press " end " button when soaring for the 11st time proceeding to, monitoring this moment be exactly the technological number of times that soars for 10 times.

Shown in figure 10, the effect of data memory module is that each item valid data in the motion process are preserved, for data show and analysis provides foundation.

Shown in figure 11, the effect of program controling module is carrying out in order of control program and withdraws from.When program is carried out; At first press START button, can occur importing the name dialog box afterwards, at correct input name and after pressing " confirming " button of this dialog box; Program promptly gets into observation process; If finish this monitoring, as long as press " end " button, can show all data and the information of this monitoring this moment; If also will once monitor in addition, as long as press " repetition " button, can carry out again comprehensively monitoring, finish also must press " end " button like need.If thoroughly finish this monitoring,, finish this monitoring, EOT as long as program can withdraw from fully after pressing " withdrawing from " button.

The utility model can be monitored multinomial trampolining state parameter simultaneously through sensor, and monitoring accuracy is high and be convenient to analyze and handle, and whole trampolining dynamic monitoring system is easy to build, simple to operate.

Above embodiment limits the utility model never in any form, every above embodiment is made with the equivalent transformation mode other improve and use, all belong to the protection domain of the utility model.

Claims (5)

1. trampolining dynamic monitoring system; It is characterized in that: comprise the sensor of monitoring motion state signal, status signal is transformed into the data acquisition unit of data signal and has digital signal processing capability and the digital signal processor of control ability; The border detection sensor that the sensor of said monitoring motion state signal crosses the border and breaks rules for the monitoring trampolining; Be set up in around the trampoline with each bar boundary alignment of trampoline respectively; Said border detection sensor links to each other with data acquisition unit through data wire, and data acquisition unit is connected with digital signal processor with adapter via data wire.

2. trampolining dynamic monitoring system according to claim 1; It is characterized in that: the sensor of said monitoring motion state signal also comprises the detection sensor that suppresses that is used to monitor the trampolining dynamic parameter; The said detection sensor that suppresses is evenly distributed in a side of trampoline with the arrangement mode of many rows vertical alignment, and the said detection sensor that suppresses links to each other with data acquisition unit through data wire.

3. trampolining dynamic monitoring system according to claim 2 is characterized in that: said border detection sensor with suppress detection sensor and be correlation type photoelectric sensor.

4. trampolining dynamic monitoring system according to claim 3 is characterized in that: said data acquisition unit adopts pci interface High Speed I card.

5. trampolining dynamic monitoring system according to claim 4 is characterized in that: said digital signal processor is a computer.

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