阅读说明：本技术 羽毛球柔韧剂及其使用方法 (Badminton flexibilizer and use method thereof ) 是由 李昶锡 于 2020-06-18 设计创作，主要内容包括：本发明提供了一种能提高、维护羽毛球质量的羽毛球柔韧剂及其使用方法。羽毛球柔韧剂是含有20～30％重量比的脂肪酸化合物,及70～80％重量比的挥发性溶剂和染料组成的。优化后的彩色脂肪酸的化合物是装在有海绵头的软瓶或有喷嘴控量键的容器里的,使用时,将羽毛球柔韧剂均布喷涂在羽毛球上的羽毛梗上即可。(The invention provides a badminton flexibilizer capable of improving and maintaining the quality of a badminton and a using method thereof. The badminton flexibilizer comprises 20-30% by weight of fatty acid compound, 70-80% by weight of volatile solvent and dye. The optimized compound of the colored fatty acid is filled in a soft bottle with a sponge head or a container with a nozzle quantity control key, and when the badminton ball is used, the badminton ball flexibilizer is uniformly sprayed on feather stems of the badminton ball.)

1. The shuttlecock flexibilizer comprises a shuttlecock flexibilizer which is composed of 20-30% by weight of fatty acid compound and 70-80% by weight of volatile solvent; and the shuttlecock flexibilizer is contained in a container.

2. The shuttlecock flexibilizer and the use method thereof according to claim 1, characterized in that: the fatty acid compound types are as follows: oleic acid (Cl8H34O2), linolenic acid (Cl8H32O2), palmitic acid (Cl6H32O2), stearic acid (Cl8H36O2), α -linolenic acid (Cl8H30O 2).

3. The shuttlecock flexibilizer and the use method thereof according to claim 2, characterized in that: the weight ratio of the oleic acid (Cl8H34O2) is 40-44%; the weight ratio of the linolenic acid (Cl8H32O2) is 35-42%; the weight ratio of the palmitic acid (Cl6H32O2) is 5-9%; the weight ratio of the stearic acid (Cl8H36O2) is 3-9%; the weight ratio of the alpha-linolenic acid (Cl8H30O2) is 5-11%.

4. The shuttlecock flexibilizer and the use method thereof according to claim 1, characterized in that: the badminton flexibilizer contains dye.

5. The shuttlecock flexibilizer and the use method thereof according to claim 1, characterized in that: the container is a soft bottle with a sponge head or a container with a nozzle quantitative key.

Technical Field

The invention belongs to a badminton flexibilizer capable of improving and maintaining the quality of a badminton and a use method thereof.

Background

With the improvement of the quality of life of people, more and more people pay attention to body building.

The badminton is one of the body-building exercises which are low in cost and suitable for people of all ages. More than ten million badminton games around the world

Members and fans, who use as many as billions of shuttlecocks per year.

The weight of a common badminton ball is 4.74-5.5 g, and the common badminton ball consists of cork, a wrapper and feathers. The feather on the badminton is chicken feather originally used, and the goose feather is mainly used at present. The reason is that: compared with the badminton made of chicken feather, the badminton made of goose feather can better play the role of rotation when flying, and can be more easily played on skills.

The number of feathers used on the shuttlecock is 16 in total. The feather used by the first-class badminton can only be about 14 on each goose body. Because the bent shapes of the feather on the left side of the goose and the feather on the right side of the goose are just opposite, only one feather on the same side of the goose body can be used to ensure that the rotating directions of the shuttlecocks are consistent. Therefore, 3 goose feathers are actually required to manufacture the shuttlecock.

Shuttlecocks made from poultry feathers are expensive and are also subject to breakage when exposed to low temperature and dry environments. There is a need for a maintenance method that improves the durability of shuttlecocks.

Korean utility model publication No. 20-0460219 (2012.05.02 bulletin.) discloses a storage case for maintaining the flexibility of feather on a badminton, in which a device for distributing water is provided in the storage case, so that the feather stem of the badminton is not brittle due to drying, thereby prolonging the service life of the badminton.

However, the shuttlecocks stored in the storage box are overweight due to excessive water accumulation for a long time; the shuttlecock is also easy to mildew; further, the ball supply is interrupted by the limitation of the one-time loading amount of the safe box in the middle of the game.

Disclosure of Invention

The invention provides a badminton flexibilizer, which utilizes an optimized fatty acid compound to improve the flexibility of a badminton.

The invention also adds dye components into the composition of the badminton flexibilizer. The badminton is provided with help for identifying whether the color of the combined part of the badminton and the badminton flexibilizer is consistent with each other by naked eyes.

The invention also provides a uniform distribution and spraying method of the badminton flexibilizer, so that the weight of the badminton can still be kept within the weight range required by the standard performance after the flexibilizer is uniformly distributed and sprayed.

The problem solving method comprises the following steps:

in order to solve the above problems, as a preferred method, in the shuttlecock flexibilizer and the use method thereof, the shuttlecock flexibilizer comprises a fatty acid compound containing 20-30% by weight and a volatile solvent containing 70-80% by weight; the using method is that the badminton flexibilizer is evenly sprayed on feather stems of the badminton.

As a preferred method, the fatty acid compound is of the type: oleic acid (C)₁₈H₃₄O₂) Linolenic acid (C)₁₈H₃₂O₂) Palmitic acid (C)₁₆H₃₂O₂) Stearic acid (C)₁₈H₃₆O₂) Alpha-linolenic acid (C)₁₈H₃₀O₂)。

As a preferred method, the oleic acid (C)₁₈H₃₄O₂) The weight ratio of (A) is 40-44%; the linolenic acid (C)₁₈H₃₂O₂) The weight ratio of (A) is 35-42%; the palmitic acid (C)₁₆H₃₂O₂) The weight ratio of (A) is 5-9%; the stearic acid (C)₁₈H₃₆O₂) The weight ratio of (A) is 3-9%; the alpha-linolenic acid (C)₁₈H₃₀O₂) The weight ratio of (A) is 5-11%.

As a preferable method, the badminton softening agent contains dye.

In a preferred method, the shuttlecock flexibilizer is contained in a container having a sponge head or a nozzle button.

Drawings

FIG. 1: description drawing of badminton flexibilizer with container of sponge head (soft bottle)

FIG. 2 is a drawing: description picture of shuttlecock flexibilizer with nozzle button (canned) container

Description of the symbols:

100: soft bottle

200: container with a lid

110: outlet section

112: sponge head

210: nozzle quantity control key

Hereinafter, shuttlecock flexibilizers will be described in more detail according to examples of the present invention.

According to embodiments of the present invention, a shuttlecock flexibilizer may be composed of a fatty acid compound and a solvent. Specifically, the badminton flexibilizer can comprise 20-30% by weight of a fatty acid compound, 70-80% by weight of a solvent and a dye.

In embodiments of the present invention, the fatty acid compound may be formulated from a solvent and a mutually soluble fatty acid. Specifically, the fatty acid compound may be prepared by solvent mixing oleic acid (C)₁₈H₃₄O₂) Linolenic acid (C)₁₈H₃₂O₂) Palmitic acid (C)₁₆H₃₂O₂) Stearic acid (C)₁₈H₃₆O₂) Alpha-linolenic acid (C)₁₈H₃₀O₂) And fatty acid compounds and dyes.

On the other hand, according to the practice of the embodiments of the present invention, the optimum combination of various fatty acid species in the fatty acid compounds is preferably selected through several tests within the specified range. Specifically, according to the practice of the embodiment of the present invention, various types of fatty acid compounds of fatty acids are applied to each shuttlecock at different ratios, and after a 25-point double-play game is completed, the coefficient (consumption) obtained by the consumption of the shuttlecock during the use is detected. (in this case, the environmental conditions were 50% humidity and 10 ℃ C.)

The (consumption coefficient) results thus produced are shown below in [ table 1 ].

According to the embodiment of the invention, the badminton flexibilizer can change the texture tissue of the feather on the badminton, and prevent brittle fracture caused by losing the flexibility of the feather in a low-temperature and dry environment, so that the durability of the badminton is improved.

[ Table 1]

Table 1 the smaller the coefficient of consumption, the less the consumption of the shuttlecock, and the better the durability.

Reference [ Table 1]]Oleic acid (C)₁₈H₃₄O₂) When the consumption index is between 40 and 50 percent, the consumption index is the lowest and is 0.47; the linolenic acid (C)₁₈H₃₂O₂)3, when the content is 0-40%, the consumption index is the lowest and is 0.49; the palmitic acid (C)₁₆H₃₂O₂) When the content is 5-10%, the consumption rate is the lowest and is 0.5; the stearic acid (C)₁₈H₃₆O₂) The lowest consumption index is 0.5 when the consumption index is 5-20%; the alpha-linolenic acid (C)₁₈H₃₀O₂) The lowest consumption rate is 0.51 when the consumption rate is 5-20%.

Based on the above experimental results, according to the embodiment of the present invention, the specific gravity of the fatty acid compound of the badminton flexibilizer is: 40-50% of oleic acid (C)₁₈H₃₄O₂) 30-40% of (C) linolenic acid₁₈H₃₂O₂) 5-10% of palmitic acid (C)₁₆H₃₂O₂) 5 to 20% of (C)₁₈H₃₆O₂) 5-20% of alpha-linolenic acid (C)₁₈H₃₀O₂)。

When the fatty acid compound prepared by the components is added with a solvent and mixed for use together, the applicability of the fatty acid compound on the badminton is not influenced. For example, the shuttlecock flexibilizer in the embodiment of the present invention can be manufactured without affecting the solvent weight of the shuttlecock.

In embodiments of the invention, the use of fatty acid compounds may be substantially unaffected by the use of a volatile liquid solvent. The solvent used may be methanol (CH3OH) or ethanol (C2H5OH), and is not limited to these two.

As described above, in order to adapt the badminton use standard, the solvent is gasified within a set time, and only the fatty acid compound is left in the middle of the feather stem of the badminton.

The badminton flexibilizer is suitable for the use standard of the badminton, and the limit weight of the badminton is well controlled, namely controlled within 4.75-5.5 g. Therefore, the badminton flexibilizer in the embodiment of the invention can be coated on the middle part of the feather stem of the badminton by using two uniformly distributed spraying modes.

And in the first smearing mode, the soft bottle with the sponge head filled with the badminton flexibilizer is used for smearing the badminton flexibilizer on the middle part of the feather stalk of the badminton, and the soft bottle is pressed for 1-2 times of smearing.

Specifically, as shown in fig. 1, in order to guarantee the weight limitation of the shuttlecock, a sponge head (112) for controlling the coating amount can be installed at the outlet part (110) of the soft bottle (100) filled with the shuttlecock flexibilizer.

By installing the outlet portion (110) of such a sponge head (112), the supply amount of the shuttlecock softener in the soft bottle (100) can be restricted.

The second coating method is a spray method.

As shown in fig. 2, a container (200) containing a shuttlecock softener is provided and a nozzle metering key (210) for metering the spray is provided on the container.

When the spray spraying mode is used, one hand holds the cork part (1) of the badminton, the other hand holds the container (200), the index finger of the index finger is pressed on the nozzle quantity control key (210), and the spray quantity of the badminton flexibilizer is pressed and sprayed on the feather stems at the inner side and the outer side of the badminton at the position of 1-5 cm and 1-2 times per return. The badminton has ideal service life by adopting the spraying mode.

On the other hand, if necessary, a dye may be added to the shuttlecock flexibilizer mixed with a fatty acid compound and a solvent.

The dye is added into the badminton flexibilizer, so that whether the badminton flexibilizer is sprayed on the badminton can be identified by naked eyes. The dye can prevent the problems of the badminton that the hitting power is reduced or the flying distance is reduced due to the fact that the weight of the badminton is increased after the badminton flexibilizer is sprayed for many times.

Hereinafter, the present invention will be described in further detail with reference to examples.

The embodiments of the present invention are not intended to limit the scope of the appended claims, and the inventors may make various changes and modifications within the scope of the present invention and the technical spirit thereof.

Such changes and modifications are, of course, within the purview of the appended claims.

[ example 1]

The weight ratio is as follows: 40-44% oleic acid (C)₁₈H₃₄O₂) 35-42% of linolenic acid (C)₁₈H₃₂O₂) 5-9% of palmitic acid (C)₁₆H₃₂O₂) 3-9% of stearic acid (C)₁₈H₃₆O₂) 5-11% of alpha-linolenic acid (C)₁₈H₃₀O₂) The proportion of the fatty acid compound is proper, and the badminton flexibilizer can be preferably made.

Methanol (CH3OH) or ethanol (C2H5OH) can be used as solvent.

The badminton flexibilizer can be prepared by matching 20-30% of fatty acid compound and 70-80% of solvent by weight.

[ example 2 example ]

The shuttlecock flexibilizer can be prepared by mixing 20-30% by weight of fatty acid compound, 65-70% by weight of solvent and 5-15% by weight of dye.

In addition to this ratio, linolenic acid (C) can be added in addition to the above example 1₁₈H₃₄O₃) Tetradecanoic acid (C)₁₄H₂₈O₂) Arachidonic acid (C)₂₀H₃₂O₂) Methyltestosterone (C)₁₂H₂₄O₂) The weight ratio of the fatty acid compounds is preferably selected, and other badminton flexibilizers can be prepared by mixing with proper solvent weight ratio or dye weight ratio.

Embodiments of the present invention are limited to shuttlecock flexibilizers, but are not limited to the durability of feathers or feather products other than shuttlecocks.

It is intended that the present disclosure not be limited to the particular embodiments disclosed, but that the present disclosure will include all embodiments falling within the scope of the appended claims.

Detailed Description

The invention relates to a badminton flexibilizer, which comprises a fatty acid compound, a solvent and a dye.

According to practice of an embodiment of the invention: in calculating the consumption of the shuttlecocks in the badminton match, the following results are obtained: shuttlecocks coated with shuttlecock flexibilizer result in minimal consumption.

In addition, in accordance with practice of embodiments of the present invention, the shuttlecock flexibilizer is capable of changing the physical properties of keratin, the main component in the feathers of avian birds such as chickens or geese. Specifically, the badminton flexibilizer can improve the polynuclear cell fiber tissue in the feather stem on the badminton, and can prevent the feather brittle failure caused by the reduction of the flexibility in a low-temperature and dry environment, thereby improving the durability of the badminton. And only a small amount of badminton flexibilizer is sprayed on the stems of the feathers of the badminton, so that the badminton cannot be overweight and mildewed, and can be used after being coated, and the dosage is convenient.