CN108042992B - Badminton feather shape selection system - Google Patents

Abstract

The invention discloses a badminton feather shape selection system, which comprises: the feather cutting module is used for cutting the sample feathers through n kinds of feather cutting dies respectively to obtain n kinds of sample feathers with the same area and different shapes; the badminton manufacturing module is used for manufacturing n detection badmintons based on n sample feathers with the same area and different shapes, and the sample feathers in each detection badminton are the same in type; the trajectory testing module is used for respectively hitting n detection shuttlecocks with preset force and preset angle through the sample racket and recording the flight trajectories A of the n detection shuttlecocks₁…A_n(ii) a A similarity comparison module for comparing A₁、A₂、…A_nRespectively carrying out track similarity comparison with preset standard tracks to obtain track similarity values B of n detected shuttlecocks₁…B_n(ii) a A mold selection module for obtaining B₁…B_nAnd (5) taking the feather cutting die corresponding to the maximum value as the optimal feather cutting die.

Description

Badminton feather shape selection system

Technical Field

The invention relates to the technical field of badminton manufacturing, in particular to a badminton feather shape selection system.

Background

With the continuous improvement of the social living standard, more and more sports are continuously favored, and the badminton is one of the sports. Badminton is more and more favored, the badminton can enable limbs, cervical vertebra and a plurality of parts of the body to participate in sports, the application range is wide, the sports intensity is moderate, and the required conditions are more suitable for people in all circles; when the badminton is exercised, the physical quality is improved, and the badminton can be used for mastering temperament.

Due to the factors, the efficiency of the shuttlecock in each stage of production, processing and packaging is required to be continuously improved, various parameters of the shuttlecock are strictly controlled, the quality of the shuttlecock is ensured, the processing method of the shuttlecock needs to be continuously adjusted, advanced equipment is continuously adopted, the manufactured shuttlecock is more exquisite, and the using effect is better.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides a badminton feather shape selection system;

the invention provides a badminton feather shape selection system, which comprises:

the feather cutting module is used for cutting the sample feathers through n kinds of feather cutting dies respectively to obtain n kinds of sample feathers with the same area and different shapes;

the badminton manufacturing module is used for manufacturing n detection badmintons based on n sample feathers with the same area and different shapes, wherein the sample feathers in each detection badminton are the same in type;

the trajectory testing module is used for striking n detection shuttlecocks respectively at preset force and preset angle through the sample racket, recording the flight trajectories of the n detection shuttlecocks and recording the flight trajectories as A₁、A₂、…A_n；

A similarity comparison module for comparing A₁、A₂、…A_nRespectively carrying out track similarity comparison with preset standard tracks to obtain track similarity values of n detected shuttlecocks, and recording the track similarity values as B₁、B₂、…B_n；

A mold selection module for obtaining B₁、B₂、…B_nAnd (5) taking the feather cutting die corresponding to the maximum value as the optimal feather cutting die.

Preferably, the feather trimming module is specifically configured to:

the errors of the feather weight, the feather length, the feather curvature and the feather bow of any two sample feathers in the n sample feathers with the same area and different shapes are all within a preset error range.

Preferably, the badminton making module is specifically used for: n detection shuttlecocks are manufactured based on n sample feathers with the same area and different shapes and standard manufacturing materials.

Preferably, the shuttlecock production module is further configured to:

the standard manufacturing material at least comprises a ball head, glue and a binding line;

in the process of manufacturing n detection shuttlecocks based on n sample feathers with the same area and different shapes and standard manufacturing materials, the selected shuttlecocks are the same in weight, the used glue is the same in amount, the selected binding lines are the same in weight, and the binding positions of the binding lines are the same.

Preferably, the trajectory testing module is specifically configured to:

in the process of hitting n detection shuttlecocks respectively at preset force and preset angle through a sample racket, the hitting environment is a windless environment.

Preferably, the trajectory testing module is further configured to: the flight tracks of the n detection shuttlecocks are recorded through at least 2 high-definition cameras.

In the invention, a feather cutting module is used for cutting sample feathers through n kinds of feather cutting dies respectively to obtain n kinds of sample feathers with the same area and different shapes; the badminton manufacturing module is used for manufacturing n detection badmintons based on n sample feathers with the same area and different shapes, wherein the sample feathers in each detection badminton are the same in type; the trajectory testing module is used for striking n detection shuttlecocks respectively at a preset force and a preset angle through the sample racket and recording flight trajectories of the n detection shuttlecocks; the similarity comparison module is used for comparing the flight trajectories of the detected shuttlecocks with the preset standard trajectories respectively to obtain trajectory similarity values of the n detected shuttlecocks; the mould selects the module for obtain the feather cutting die that the maximum value corresponds among the orbit similarity value of n detection badminton, and cut the mould with it as optimum feather, so, guaranteeing under the same circumstances of other factors, select the best feather shape of result of use and orbit, thereby obtain the feather cutting die who corresponds the shape, and then produce more exquisite badminton, let the user when playing the badminton, motion experience is better.

Drawings

Fig. 1 is a schematic block diagram of a badminton feather shape selection system provided by the invention.

Detailed Description

Referring to fig. 1, the invention provides a badminton feather shape selection system, which comprises:

the feather cutting module is used for cutting the sample feathers through the n kinds of feather cutting dies respectively to obtain n kinds of sample feathers with the same area and different shapes, wherein the errors between the feather weight, the feather length, the feather curvature and the feather bow of any two sample feathers in the n kinds of sample feathers with the same area and different shapes are all within a preset error range.

In the concrete scheme, tailor the mould through n kinds of feather that the area is the same, the shape is different and tailor the sample feather, obtain n kinds of sample feathers that the area is the same, the shape is different, in order to guarantee the accuracy of follow-up detection, the error between feather weight, feather length, feather crookedness, the feather bow degree of two arbitrary sample feathers in all sample feathers all is in presetting error range, discharges the influence of the factor except feather shape to the testing result.

Badminton preparation module for based on n kinds of sample feather preparation n that the area is the same, the shape is different detects the badminton, wherein, the sample feather kind in every detection badminton is the same, specifically is used for: manufacturing n detection shuttlecocks based on n sample feathers with the same area and different shapes and a standard manufacturing material, wherein the standard manufacturing material at least comprises a shuttlecock head, glue and a binding line;

in the process of manufacturing n detection shuttlecocks based on n sample feathers with the same area and different shapes and standard manufacturing materials, the selected shuttlecocks are the same in weight, the used glue is the same in amount, the selected binding lines are the same in weight, and the binding positions of the binding lines are the same.

In the specific scheme, the detection badminton is manufactured based on 16 sample feathers of the same type and materials such as a badminton head, glue, a binding line and the like, the influence of other materials on the detection result in the badminton manufacturing process is eliminated, the glue amount, the binding line position and the binding line tension are consistent in the badminton manufacturing process, and therefore n sample feathers with the same area and different shapes are manufactured to manufacture n detection badmintons.

The trajectory testing module is used for striking n detection shuttlecocks respectively at preset force and preset angle through the sample racket, recording the flight trajectories of the n detection shuttlecocks and recording the flight trajectories as A₁、A₂、…A_nThe method is specifically used for: hit the in-process with predetermined dynamics and predetermined angle respectively to n detection badminton through the sample racket, hit and hit the environment of locating for the windless environment, wherein, through the flight orbit of 2 at least high definition digtal cameras record n detection badmintons.

In a specific scheme, in a windless environment, n detection shuttlecocks are hit by the same badminton racket according to preset force and a preset angle, and the flight tracks of the n detection shuttlecocks are recorded by a plurality of high-definition cameras;

specifically, n detection shuttlecocks can be hit for many times respectively, the flight tracks of the n detection shuttlecocks for many times are recorded, and the middle track of 1 detection shuttlecock in multiple flight tracks is taken as the flight track of the detection shuttlecock.

A similarity comparison module for comparing A₁、A₂、…A_nRespectively carrying out track similarity comparison with preset standard tracks to obtain track similarity values of n detected shuttlecocks, and recording the track similarity values as B₁、B₂、…B_n；

A mold selection module for obtaining B₁、B₂、…B_nAnd (5) taking the feather cutting die corresponding to the maximum value as the optimal feather cutting die.

In a specific scheme, the flight trajectories of n detection shuttlecocks are respectively compared with a preset standard trajectory in trajectory similarity, so that trajectory similarity values of the n detection shuttlecocks can be obtained, wherein the standard trajectory can be edited, the highest value of the trajectory similarity values of the n detection shuttlecocks is obtained, and then a feather cutting mold corresponding to the highest value of the similarity values is obtained, and the feather cutting mold is an optimal feather cutting mold.

In the embodiment, the feather cutting module is used for cutting sample feathers through n kinds of feather cutting dies respectively to obtain n kinds of sample feathers with the same area and different shapes; the badminton manufacturing module is used for manufacturing n detection badmintons based on n sample feathers with the same area and different shapes, wherein the sample feathers in each detection badminton are the same in type; the trajectory testing module is used for striking n detection shuttlecocks respectively at a preset force and a preset angle through the sample racket and recording flight trajectories of the n detection shuttlecocks; the similarity comparison module is used for comparing the flight trajectories of the detected shuttlecocks with the preset standard trajectories respectively to obtain trajectory similarity values of the n detected shuttlecocks; the mould selects the module for obtain the feather cutting die that the maximum value corresponds among the orbit similarity value of n detection badminton, and cut the mould with it as optimum feather, so, guaranteeing under the same circumstances of other factors, select the best feather shape of result of use and orbit, thereby obtain the feather cutting die who corresponds the shape, and then produce more exquisite badminton, let the user when playing the badminton, motion experience is better.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. The utility model provides a badminton feather shape selection system which characterized in that includes:

the feather cutting module is used for cutting the sample feathers through n kinds of feather cutting dies respectively to obtain n kinds of sample feathers with the same area and different shapes;

the badminton manufacturing module is used for manufacturing n detection badmintons based on n sample feathers with the same area and different shapes, wherein the sample feathers in each detection badminton are the same in type;

a track testing module for respectively hitting n detection shuttlecocks with preset force and preset angle through a sample racketHitting and recording the flight tracks of n detected shuttlecocks, and recording the flight tracks as A₁、A₂、…A_n；

A similarity comparison module for comparing A₁、A₂、…A_nRespectively carrying out track similarity comparison with preset standard tracks to obtain track similarity values of n detected shuttlecocks, and recording the track similarity values as B₁、B₂、…B_n；

A mold selection module for obtaining B₁、B₂、…B_nAnd (5) taking the feather cutting die corresponding to the maximum value as the optimal feather cutting die.

2. The shuttlecock feather shape selection system of claim 1, wherein the feather clipping module is specifically configured to:

the errors of the feather weight, the feather length, the feather curvature and the feather bow of any two sample feathers in the n sample feathers with the same area and different shapes are all within a preset error range.

3. The shuttlecock feather shape selection system of claim 1, wherein the shuttlecock production module is specifically configured to: n detection shuttlecocks are manufactured based on n sample feathers with the same area and different shapes and standard manufacturing materials.

4. The shuttlecock feather shape selection system of claim 3, wherein the shuttlecock production module is further configured to:

the standard manufacturing material at least comprises a ball head, glue and a binding line;

in the process of manufacturing n detection shuttlecocks based on n sample feathers with the same area and different shapes and standard manufacturing materials, the selected shuttlecocks are the same in weight, the used glue is the same in amount, the selected binding lines are the same in weight, and the binding positions of the binding lines are the same.

5. The shuttlecock feather shape selection system of claim 1, wherein the trajectory testing module is specifically configured to:

in the process of hitting n detection shuttlecocks respectively at preset force and preset angle through a sample racket, the hitting environment is a windless environment.

6. The shuttlecock feather shape selection system of claim 1, wherein the trajectory testing module is further configured to: the flight tracks of the n detection shuttlecocks are recorded through at least 2 high-definition cameras.

Images