CN219743843U

CN219743843U - Outdoor windproof badminton

Info

Publication number: CN219743843U
Application number: CN202320575116.2U
Authority: CN
Inventors: 石磊; 王珺璇
Original assignee: Ningbo Donggang Sporting Goods Co ltd
Current assignee: Ningbo Donggang Sporting Goods Co ltd
Priority date: 2023-03-21
Filing date: 2023-03-21
Publication date: 2023-09-26
Anticipated expiration: 2033-03-21

Abstract

The utility model relates to the technical field of sports goods, in particular to an outdoor windproof shuttlecock, which comprises a shuttlecock head, a wind-dispelling framework and a wind-penetrating net, wherein the wind-dispelling framework is arranged in the shuttlecock head, the wind-penetrating net is fixed around the wind-dispelling framework, and the wind-penetrating net and the wind-dispelling framework are integrally arranged; the wind-dispelling framework comprises wind-dispelling rods and connecting rings, wherein a plurality of wind-dispelling rods are arranged on the wind-dispelling rods, the wind-dispelling rods are fixed together by the connecting rings, and the connecting rings are arranged at the joint of the wind-dispelling rods and the circular grooves; the wind-dispelling bars comprise first curved bars, wherein the first curved bars extend outwards from the circular grooves to the joint of the wind-dispelling bars and the ventilation net, and gaps are formed between the adjacent first curved bars. The utility model has the effect of improving the outdoor windproof performance of the shuttlecock.

Description

Outdoor windproof badminton

Technical Field

The utility model relates to the technical field of sports goods, in particular to an outdoor windproof badminton.

Background

The badminton is a popular sports, is also a very effective fitness project, can exercise the body in all directions, strengthen physique, and has various changes such as speed, weight, height, distance, weakness and the like in the flying process of the badminton, and the types of the badminton are also various along with the change of the sports requirement, so that the badminton is suitable for different use environments.

In the related art, the shuttlecock is manufactured by a foam ball head and goose feather or duck feather, and is suitable for indoor sports to meet the sports requirements.

In the related art, the wings of the shuttlecock are made of feathers, the wings of the shuttlecock are lighter, and the contact area between the wings and wind is larger when the outdoor wind exists, so that the defect that the shuttlecock is easy to blow by wind exists.

Disclosure of Invention

The utility model provides an outdoor windproof badminton, which aims to improve the outdoor windproof performance of the badminton.

The utility model provides an outdoor windproof badminton which adopts the following technical scheme:

an outdoor windproof shuttlecock comprises a ball head, a wind-dispelling framework and a ventilation net, wherein the wind-dispelling framework is arranged in the ball head, the ventilation net is fixed around the wind-dispelling framework, and the ventilation net and the wind-dispelling framework are integrally arranged;

the wind-dispelling framework comprises wind-dispelling rods and connecting rings, wherein a plurality of wind-dispelling rods are arranged on the wind-dispelling rods, the wind-dispelling rods are fixed together by the connecting rings, and the connecting rings are arranged at the joint of the wind-dispelling rods and the circular grooves;

the wind-dispelling bars comprise first curved bars, wherein the first curved bars extend outwards from the circular grooves to the joint of the wind-dispelling bars and the ventilation net, and gaps are formed between the adjacent first curved bars.

Through adopting above-mentioned technical scheme, outdoor windproof shuttlecock includes bulb, wind-dispelling skeleton and ventilative net, and the ventilative net is fixed around the wind-dispelling skeleton, and the wind-dispelling skeleton is integrative to be set up with the wind-dispelling skeleton, and the wind-dispelling skeleton can dredge the crosswind at the in-process of badminton flight, and the wind-dispelling skeleton is dredged outdoor wind also can be assisted to the wind-dispelling net, can improve the outdoor windproof performance of shuttlecock.

Optionally, one end of the ball head is in a sphere shape, the other surface of the ball head is a plane, a circular groove is formed in the plane of the ball head, and the wind-dispelling framework is fixedly arranged in the circular groove.

Through adopting above-mentioned technical scheme, the one end of bulb is spherical, and the another side of bulb is for the plane of seting up circular recess, and the fixed mounting of wind-dispelling skeleton is in circular recess, and the wind-dispelling skeleton is fixed more stable in circular recess.

Optionally, the wind-dispelling bar further comprises a second curved bar, the second curved bar is a section of the wind-dispelling bar extending outwards to the tail of the badminton along the wind-penetrating net, and the wind-penetrating net is gradually expanded along the second curved bar.

Through adopting above-mentioned technical scheme, curved boom two is wind-dispelling pole outwards expands to the badminton tail along ventilative net, and ventilative net can make the badminton have certain resistance in the expansion shape of curved boom two departments, avoids the badminton flight speed to be too fast and be difficult for being controlled in the in-process of flight.

Optionally, the ventilation net is in a hollow grid shape, and the ventilation net is fixedly arranged between the second curved bars.

Through adopting above-mentioned technical scheme, ventilative net is the latticed of fretwork, ventilative net fixed mounting between curved bar two, ventilative net be latticed fretwork design, at the in-process of badminton flight, the net can permeate the crosswind, reduces the crosswind to the horizontal influence of badminton, and the setting of net also can make the badminton can not be too big along the windage of the direction of bulb flight, and influences the badminton and slide in the sky.

Optionally, the junction of ventilative net and curved bar two is provided with the reinforcement piece, the reinforcement piece distributes in the both sides of curved bar two, reinforcement piece fixed connection ventilative net and curved bar two.

Through adopting above-mentioned technical scheme, the junction of ventilative net and curved bar two is provided with the reinforcement piece, and the reinforcement piece distributes in the both sides of curved bar two, and reinforcement piece fixed connection ventilative net and curved bar two, reinforcement piece can be to the net form ventilative net with be connected with the reinforced effect of curved bar two for the badminton is more durable.

Optionally, the ball head is provided with a diversion trench, the diversion trench is arranged on the outer ring of the ball head, and the diversion trench has radian from one end of the sphere shape to the plane.

Through adopting above-mentioned technical scheme, the guiding gutter on the bulb sets up the outer lane at the bulb, and the guiding gutter has the radian from the one end of sphere to plane department, and the guiding gutter can play the effect of drainage at the in-process of badminton flight, reduces the resistance, plays better windproof effect.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the outdoor windproof shuttlecock comprises a ball head and a windproof framework, wherein the windproof framework is arranged in the ball head and comprises first curved bars, gaps formed among the first curved bars are large, and in the flying process of the shuttlecock, transverse wind blows through hollowed-out parts among the first curved bars, so that the influence of the transverse wind on the shuttlecock is effectively reduced, and the outdoor windproof performance of the shuttlecock is improved;

2. the air-permeable net is fixed between the second curved bars, the air-permeable net is in a gradually enlarged shape along the second curved bars, the air-permeable net is in a grid-shaped hollowed-out design, the expanded shape of the air-permeable net can enable the shuttlecock to have certain resistance, the flying speed of the shuttlecock can be prevented from being too high in flying, meanwhile, the grid can penetrate cross wind to a certain extent, wind resistance along the flying direction of the ball head can be prevented from being too high, and the shuttlecock can slide in the air better;

3. the reinforcing sheets are arranged at the joint of the ventilation net and the curved rod II and distributed on the two sides of the curved rod II, the connection contact area of the grid ventilation net and the curved rod II is small, the reinforcing sheets are used for reinforcing the connection of the ventilation net and the curved rod II, the connection of the ventilation net and the curved rod II is firmer, and the durability of the badminton is enhanced.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present utility model.

Reference numerals: 1. ball head; 11. a circular groove; 12. a diversion trench; 2. a wind-dispelling skeleton; 21. a wind dispelling bar; 211. a first curved lever; 212. a second bent rod; 22. a connecting ring; 3. a ventilation net; 4. reinforcing sheets.

Detailed Description

The present utility model will be described in further detail with reference to fig. 1.

The utility model discloses an outdoor windproof badminton. Referring to fig. 1, an outdoor windproof shuttlecock comprises a ball head 1, a wind-dispelling skeleton 2 and a wind-penetrating net 3, wherein the wind-dispelling skeleton 2 is arranged in the ball head 1, the wind-penetrating net 3 and the wind-dispelling skeleton 2 are integrally arranged, the wind-penetrating net 3 is arranged around the wind-dispelling skeleton 2, and the wind-penetrating net 3 is fixed on the wind-dispelling skeleton 2.

Referring to fig. 1, one end of a ball head 1 is in a ball shape, the other end of the ball head 1 is in a plane, one end of the plane of the ball head 1 is provided with a circular groove 11, the circular groove 11 is formed in the ball head 1, a wind-dispelling skeleton 2 comprises wind-dispelling rods 21 and connecting rings 22, the number of the wind-dispelling rods 21 is five, the five wind-dispelling rods 21 are uniformly distributed in the circular groove 11, the connecting rings 22 fix the five wind-dispelling rods 21 together, the connecting rings 22 are arranged at the joint of the wind-dispelling rods 21 and the circular groove 11, the connecting rings 22 are bonded with the circular groove 11 through resin glue, the ball head 1 is provided with a plurality of guide grooves 12, the guide grooves 12 are in radian from one end of the ball shape to the plane, and the guide grooves 12 are arranged on the outer ring of the ball head 1.

Referring to fig. 1, the wind-dispelling bars 21 have a curved radian, the cross-sectional area formed between the five wind-dispelling bars 21 gradually increases outwards from the circular groove 11 to the joint of the wind-dispelling bars 21 and the ventilation net 3, the wind-dispelling bars 21 are called as curved bars 211, gaps formed among the curved bars 211 are large, and in the badminton flying process, transverse wind blows through the hollowed-out parts among the curved bars 211, so that the influence of the transverse wind on the badminton can be effectively reduced, and the windproof effect is achieved.

Referring to fig. 1, the wind-dispelling bar 21 is expanded to the tail of the shuttlecock with a larger inclination outwards along the wind-penetrating net 3, the rest of the wind-dispelling bar 21 is called a second curved bar 212, the wind-penetrating net 3 surrounds the second curved bar 212 and is fixedly arranged between the second curved bars 212, the wind-penetrating net 3 is in a gradually expanding shape along the second curved bar 212 to the tail of the shuttlecock, wind resistance at the first curved bar 211 is very small, the expansion shape of the wind-penetrating net 3 can enable the shuttlecock to generate certain resistance, the flying speed of the shuttlecock is prevented from being too fast or the flying distance of the shuttlecock is prevented from being too far in the flying process, and a part of generated resistance is also converted into the lifting force of the shuttlecock, so that the shuttlecock can slide in the air.

Referring to fig. 1, a ventilation net 3 is in a hollow design, the ventilation net 3 in the utility model is in a grid shape, the grid structure can penetrate cross wind to a certain extent in the badminton flying process, the influence of the cross wind on the badminton is reduced, the arrangement of the grid can prevent wind resistance along the flying direction of a ball head 1 from being excessive, and the badminton can slide in the air better.

Referring to fig. 1, the connection part of the ventilation net 3 and the curved bar two 212 is provided with reinforcing sheets 4, the reinforcing sheets 4 are distributed on two sides of the curved bar two 212, the contact area of the connection part of the grid-shaped ventilation net 3 and the curved bar two 212 is smaller, the grid structure of the ventilation net 3 is easy to break with the curved bar two 212, and the reinforcing sheets 4 have reinforcing effect on the connection of the ventilation net 3 and the curved bar two 212, so that the badminton is more durable in the use process.

The implementation principle of the utility model is as follows: the ball head 1 of the badminton is formed by pressing a mould, one end of the ball head 1 after pressing is in a ball shape, the other end of the ball head 1 is a plane with a circular groove 11, a plurality of diversion trenches 12 are formed in the ball head 1, a plurality of ventilation bars 21 are formed by pressing through the same mould, the five ventilation bars 21 are uniformly distributed to be circular at the same angle, one ends of the five ventilation bars 21 are fixed together through a connecting ring 22, the connecting ring 22 is bonded in the circular groove 11 through resin adhesive, the ventilation bars 21 are arranged at the position of a curved bar one 211, gaps between the curved bars one 211 are large, a ventilation net 3 is arranged between the curved bars two 212 along the direction from the curved bars two 212 to the tail of the badminton, the ventilation net 3 is fixedly arranged on the curved bars two 212, reinforcing pieces 4 are distributed on two sides of the curved bars two 212 at the joint of the ventilation net 3 and the curved bars two 212, the reinforcing pieces 4 are connected between the ventilation net 3 and the curved bars two 212, and the ventilation net 3 and the two curved bars 212 play a role in reinforcing the connection of the ventilation net 3 and the two ventilation nets 212.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims

1. An outdoor windproof badminton is characterized in that: the wind-proof ball comprises a ball head (1), a wind-proof framework (2) and a wind-proof net (3), wherein the wind-proof framework (2) is arranged in the ball head (1), the wind-proof net (3) is fixed around the wind-proof framework (2), and the wind-proof net (3) and the wind-proof framework (2) are integrally arranged;

the wind-dispelling framework (2) comprises wind-dispelling rods (21) and connecting rings (22), wherein the wind-dispelling rods (21) are arranged in a plurality, the wind-dispelling rods (21) are fixed together by the connecting rings (22), and the connecting rings (22) are arranged at the joint of the wind-dispelling rods (21) and the circular grooves (11);

the wind-dispelling bars (21) comprise first curved bars (211), the first curved bars (211) are joints between the wind-dispelling bars (21) and the wind-penetrating net (3) and are formed by outwards extending the wind-dispelling bars (21) from the circular grooves (11), and gaps are formed between the adjacent first curved bars (211).

2. An outdoor windproof shuttlecock as claimed in claim 1 wherein: one end of the ball head (1) is in a sphere shape, the other surface of the ball head (1) is a plane, a circular groove (11) is formed in the plane of the ball head (1), and the wind-dispelling framework (2) is fixedly arranged in the circular groove (11).

3. An outdoor windproof shuttlecock as claimed in claim 2 wherein: the wind-dispelling rod (21) further comprises a second curved rod (212), the second curved rod (212) is a section of the wind-dispelling rod (21) extending outwards to the tail of the badminton along the wind-penetrating net (3), and the wind-penetrating net (3) is gradually expanded along the second curved rod (212).

4. An outdoor windproof shuttlecock as claimed in claim 1 wherein: the ventilation net (3) is in a hollow grid shape, and the ventilation net (3) is fixedly arranged between the two curved rods (212).

5. An outdoor windproof shuttlecock as claimed in claim 4 wherein: the reinforced sheet (4) is arranged at the joint of the ventilation net (3) and the bent rod II (212), the reinforced sheet (4) is distributed on two sides of the bent rod II (212), and the reinforced sheet (4) is fixedly connected with the ventilation net (3) and the bent rod II (212).

6. An outdoor windproof shuttlecock as claimed in claim 5 wherein: the ball head (1) is provided with a diversion trench (12), the diversion trench (12) is arranged on the outer ring of the ball head (1), and the diversion trench (12) has radian from one end of a sphere shape to a plane.