CN109938425B - Bicycle sports wear - Google Patents

Abstract

A bicycle sports garment includes a back flow directing structure, a pair of shoulder flow directing structures, and a pair of arm flow directing structures. The back flow guide structure is arranged in the middle block of the back of the bicycle sports wear and extends from the neck to the waist. The shoulder diversion structure is arranged on the shoulder of the bicycle sports wear. The arm diversion structure is arranged on the upper arm part of the bicycle sports wear. The respective roughness of the aft baffle structure, the shoulder baffle structure and the arm baffle structure is between 500 microns and 800 microns. The bicycle sports wear is matched with different speeds to configure different roughness and flow guide grain directions at each part of the bicycle sports wear, so that the user can achieve the effect of effectively reducing air resistance when performing bicycle sports.

Description

Bicycle sports wear

Technical Field

The invention relates to a bicycle sports wear.

Background

With the development of science and technology, the application of textiles in daily life is beginning to expand from the field of clothing to other fields. People's requirements for textiles are not limited to the function of heat preservation, and textile manufacturers and manufacturers also want to combine the textiles with technologies in different fields, so as to improve the added value of the textiles and enable the applications of the textiles to be more flexible. For example, as the standard of human living increases, new requirements for the functions of fabrics are required, and various functional fabrics are continuously coming out, such as functional fabrics with specific purposes of moisture absorption, sweat releasing, comfort, water washing resistance, beauty and the like. With the development of science and technology, in recent years, the special research on the sports clothes designed for specific sports projects is more focused on improving the sports performance.

Disclosure of Invention

In view of the above, some embodiments of the present invention disclose a cycling jersey for reducing air resistance when riding a bicycle.

The invention further discloses a bicycle sports wear which is suitable for middle and high speed bicycle sports and is characterized by comprising a back flow guide structure, a pair of shoulder flow guide structures and a pair of arm flow guide structures. The back flow guide structure is arranged in the middle block of the back of the bicycle sports wear and extends from the neck to the waist. The shoulder diversion structure is arranged on the shoulder of the bicycle sports wear. The arm flow guide structure is arranged on the upper arm part of the bicycle sportswear, wherein the roughness of the back flow guide structure, the roughness of the shoulder flow guide structure and the roughness of the arm flow guide structure are between 500 and 800 micrometers.

According to some embodiments of the invention, the direction of the flow guide lines of the rear spoiler is inclined by less than 5 degrees with respect to the axial direction of the cycling jersey.

According to some embodiments of the invention, the direction of the flow guide lines of the shoulder flow guide structure is inclined by 25-35 degrees relative to the axial direction of the bicycle sportswear.

According to some embodiments of the present invention, the direction of the flow guide lines of the arm flow guide structure is inclined by 45 to 55 degrees with respect to the axial direction of the cycling sportswear.

In accordance with some embodiments of the present invention, the cycling jersey further includes a pair of first back flow structures and a pair of second back flow structures. The first back flow guide structures are arranged on two sides of the back flow guide structures and below the shoulder flow guide structures. The second back flow guide structure is arranged on two sides of the back flow guide structure and below the first back flow guide structure, wherein the roughness of each of the first back flow guide structure and the second back flow guide structure is between 500 and 800 micrometers.

According to some embodiments of the present invention, the direction of the flow guide lines of the first back flow guide structure is inclined by 45 to 55 degrees with respect to the axial direction of the cycling sportswear.

According to some embodiments of the present invention, the direction of the flow guide lines of the second back flow guide structure is inclined by 50 to 60 degrees with respect to the axial direction of the cycling sportswear.

In another aspect, the present invention discloses a cycling suit suitable for low and medium speed cycling, comprising a back flow guiding structure, an upper chest flow guiding structure and a pair of arm flow guiding structures. The back flow guide structure is arranged in the middle block of the back of the bicycle sports wear and extends to the wear pendulum from the neck. The roughness of the back flow guide structure is between 700 and 1000 microns. The upper chest flow guiding structure is arranged at the upper chest part on the front side of the bicycle sports wear. The roughness of the upper chest flow guiding structure is between 500 and 800 microns. The arm diversion structure is arranged on the upper arm part of the bicycle sports wear. The respective roughness of the arm flow guiding structures is between 800 microns and 1100 microns.

According to some embodiments of the invention, the direction of the flow guide lines of the rear spoiler is inclined by less than 5 degrees with respect to the axial direction of the cycling jersey.

According to some embodiments of the present invention, the direction of the flow guide lines of the upper chest flow guide structure is inclined by less than 5 degrees with respect to the axial direction of the cycling suit.

According to some embodiments of the present invention, the direction of the flow guide lines of the arm flow guide structure is inclined by 25 to 35 degrees with respect to the axial direction of the cycling sportswear.

According to some embodiments of the present invention, the cycling garment further comprises a pair of side back flow guide structures respectively disposed on both sides of the back flow guide structure. The roughness of the side back flow guide structure is between 800 micrometers and 1100 micrometers, and the flow guide grain direction inclines for 25-30 degrees relative to the axis direction of the bicycle sports wear.

According to some embodiments of the present invention, the cycling suit further comprises a pair of rib guiding structures, the rib guiding structures are disposed on the cycling suit at positions corresponding to the ribs, the roughness of the rib guiding structures is between 500 microns and 800 microns, and the direction of the guiding lines is inclined by less than 5 degrees relative to the axial direction of the cycling suit.

According to some embodiments of the present invention, the cycling jersey further comprises a plain weave flow guide area, which is provided on the cycling jersey and has a roughness of 300 microns to 600 microns, and a flow guide line direction of the plain weave flow guide area is inclined by less than 5 degrees relative to an axial direction of the cycling jersey.

The bicycle sports wear is matched with different speeds to configure different roughness and flow guide grain directions at each part of the bicycle sports wear, so that the user can achieve the effect of effectively reducing air resistance when performing bicycle sports.

Drawings

The foregoing and other objects, features, advantages and embodiments of the disclosure will be apparent from the following more particular description of the embodiments, as illustrated in the accompanying drawings in which:

FIG. 1A is a schematic view of a high-speed bicycle sports garment according to an embodiment of the present invention;

FIG. 1B is a rear view of a medium to high speed cycling jersey according to one embodiment of the present invention;

FIG. 1C is a front view of a medium to high speed cycling jersey according to one embodiment of the present invention;

FIG. 2 is a schematic surface view of a bicycle jersey according to an embodiment of the present invention;

FIG. 3A is a schematic view of a mid-low speed cycling jersey according to an embodiment of the present invention;

FIG. 3B is a rear view of a mid-low speed cycling jersey according to an embodiment of the present invention;

FIG. 3C is a front view of the mid-low speed cycling jersey according to the embodiment of the present invention.

Detailed Description

The following detailed description of exemplary embodiments will be presented in conjunction with the appended drawings, but it is not intended to limit the scope of the disclosure to the particular embodiments disclosed, and it is not intended to limit the order in which the above-described features of the embodiments are implemented, or to limit the scope of the disclosure to any configurations or arrangements of components that can achieve equivalent functionality. In addition, the drawings are for illustrative purposes only and are not drawn to scale. For ease of understanding, the same or similar elements will be described with the same reference numerals in the following description.

Furthermore, the terms (terms) used throughout the specification and claims have the ordinary meaning as is accorded to each term commonly employed in the art, in the context of this disclosure and in the context of particular applications, unless otherwise indicated. Certain terms used to describe the present disclosure will be discussed below or elsewhere in this specification to provide additional guidance to those skilled in the art in describing the present disclosure.

As used herein, the terms "first," "second," …, etc., are not intended to be limited to the exact order or sequence presented, nor are they intended to be limiting, but rather are intended to distinguish one element from another or from another element or operation described by the same technical term.

Furthermore, as used herein, the terms "comprising," "including," "having," "containing," and the like are open-ended terms that mean including, but not limited to.

Fig. 1A is an organization diagram of a middle and high speed bicycle sports wear 100 according to an embodiment of the present invention, which is a right back block B1, a front body block a, and a left back block B2 in sequence from left to right. Fig. 1B and 1C are a back view and a front view of a medium-high speed cycling suit 100 according to an embodiment of the present invention, wherein the cycling suit 100 of fig. 1B and 1C is a tubular structure (trunk) with sleeves according to the weaving method provided in fig. 1A.

Referring to fig. 1A to 1C, a cycling suit 100 suitable for middle and high speed cycling is disclosed, wherein the middle and high speed cycling is 33 to 50 km/h cycling. The cycling garment 100 includes a back baffle structure 110, a pair of shoulder baffles 120, and a pair of arm baffles 130. The rear back guide structure 110 is disposed at a middle region of the back of the cycling sport suit 100 and extends from the neck to the waist, and the width of the rear back guide structure 110 is gradually reduced along the direction that the neck extends to the waist. The shoulder deflectors 120 are provided on the shoulders of the cycling garment 100. The arm deflector 130 is provided at the upper arm portion of the cycling garment 100. The roughness of each of the aft baffle structure 110, the shoulder baffle structure 120, and the arm baffle structure 130 is between 500 microns and 800 microns, preferably between 600 microns and 700 microns.

Referring to fig. 2, fig. 2 is a schematic surface topography of the cycling jersey according to an embodiment of the present invention. As used herein, "roughness" refers to the surface topography of five sub-regions S1-S5 in a specific region (such as the aforementioned diversion structures) of the bicycle sports garment 100, such as the highest points P1-P5 and the lowest points Q1-Q5 in the five sub-regions S1-S5, after measuring the surface topography of the five sub-regions S1-S5 in the specific region to obtain the total average height Hav and the peaks of the five sub-regions S1-S5, the total average height Hav is subtracted from the heights of the highest points P1-P5 of the five sub-regions S1-S5, respectively, and the absolute value V1 is added, and the total average height Hav is subtracted from the heights of the lowest points Q1-Q5 of the five sub-regions S1-S5, respectively, and the absolute value V2 is added. Finally, the absolute value V1 is added to the absolute value V2 and divided by 5. The roughness can be measured by a laser scanning microscope, but is not limited thereto.

In some embodiments, the flow guide line direction of the rear saddle structure 110 is inclined at an angle of less than 5 degrees, preferably 0 degrees, with respect to the axial direction Y of the cycling garment 100. The direction of the flow guide lines of the shoulder flow guide structure 120 is inclined by 25 to 35 degrees, preferably 30 degrees, with respect to the axis direction Y of the cycling sportswear 100. The direction of the flow guide lines of the arm flow guide structure 130 is inclined by 45 to 55 degrees, preferably 50 degrees, with respect to the axis direction Y of the cycling sport suit 100.

The axis direction Y herein refers to a direction in the same direction as the left-right symmetrical line of the clothes, which enables the clothes to be folded in two with left-right symmetrical. In addition, the inclination degree in this specification refers to inclination in the "positive direction" and the "negative direction" with respect to the axial direction Y of the cycling suit 100, respectively, when it corresponds to the "one pair" of the diversion structures. For example, the shoulder diversion structures 120 are a pair corresponding to the left shoulder and the right shoulder, respectively. Because the left shoulder and the right shoulder are symmetrical, the inclination of the flow guide grain direction of the shoulder flow guide structure 120 to 25-35 degrees relative to the axis direction Y of the bicycle sportswear 100 includes both the inclination to the left (negative direction) by 25-35 degrees and the inclination to the right (positive direction) by 25-35 degrees. In addition, the above-mentioned "positive direction" inclined to the right or "negative direction" inclined to the left with respect to the axial direction Y will rotate with the viewing angle directions of the front view and the back view of the cycling jersey, that is, the negative direction inclination viewed from the back view angle is the positive direction inclination after the viewing angle is rotated to the front view.

For example, from the back view of fig. 1B, the shoulder diversion structure 120 located at the left half of the human body is inclined to the left by 25 to 35 degrees (i.e., 25 to 35 degrees with respect to the axial direction Y); the shoulder diversion structure 120 located on the right half of the human body is inclined to the right by 25-35 degrees (i.e. 25-35 degrees with respect to the axis direction Y). Furthermore, from the back view of fig. 1B, the flow guide grain direction of the arm flow guide structure 130 on the left half of the human body is inclined 45 to 55 degrees to the right, and the flow guide grain direction of the arm flow guide structure 130 on the right half of the human body is inclined 45 to 55 degrees to the left.

Referring to fig. 1A and 1B, in some embodiments, the cycling garment 100 may further include a pair of first back baffles 140 and a pair of second back baffles 150. The first dorsal flow directing structure 140 is positioned on both sides of the aft flow directing structure 110 and below the shoulder flow directing structure 120. The second back baffle structure 150 is disposed on both sides of the aft baffle structure 110 and below the first back baffle structure 140. The roughness of each of the first backside guiding structure 140 and the second backside guiding structure 150 is between 500 microns and 800 microns, preferably between 600 microns and 700 microns. In addition, the flow guide line direction of the first back flow guide structure 140 is inclined 45 to 55 degrees, preferably 50 degrees, with respect to the axis direction Y of the cycling sport suit 100. The direction of the flow guide lines of the second back flow guide structure 150 is inclined by 50 to 60 degrees, preferably 55 degrees, with respect to the axis direction Y of the cycling sport suit 100.

More specifically, from the back view of fig. 1B, the first back guiding structure 140 located on the left half of the human body is inclined 45 to 55 degrees to the left, and the first back guiding structure 140 located on the right half of the human body is inclined 45 to 55 degrees to the right, with respect to the axial direction Y. Furthermore, the flow guide grain direction of the second back flow guide structure 150 located on the left half of the human body is inclined by 50 to 60 degrees to the left, and the flow guide grain direction of the second back flow guide structure 150 located on the right half of the human body is inclined by 50 to 60 degrees to the right.

Referring to fig. 1A and 1C, in some embodiments, the cycling suit 100 may further include an upper chest flow-guiding structure 190 and a lower chest flow-guiding structure 160, the upper chest flow-guiding structure 190 is disposed at the upper chest of the cycling suit 100, the roughness is between 500 microns and 800 microns, preferably between 600 microns and 700 microns, and the flow-guiding grain direction is inclined by less than 5 degrees, preferably 0 degrees (parallel to the axis direction Y) with respect to the axis direction Y of the cycling suit 100. The lower chest flow directing structure 160 is disposed in an X-shape at the front lower chest of the cycling garment 100 and adjacent to the upper chest flow directing structure 190. The roughness of the lower chest flow guiding structure 160 is between 700 micrometers and 1000 micrometers, preferably between 800 micrometers and 900 micrometers, and the flow guiding grain direction is inclined by less than 5 degrees, preferably 0 degree, relative to the axial direction Y of the cycling sportswear 100.

In some embodiments, the cycling garment 100 may further include a pair of rib-guiding structures 170 disposed on the sides of the cycling garment 100 and extending from the bottom of the lower chest flow-guiding structure 160 to the waist of the cycling garment 100, wherein the roughness of the rib-guiding structures 170 is between 500 microns and 800 microns, preferably between 600 microns and 700 microns, and the direction of the flow-guiding lines is inclined by less than 5 degrees, preferably 0 degrees, relative to the axial direction Y of the cycling garment 100.

In some embodiments, the cycling garment 100 may further include a pair of abdominal baffle structures 180 disposed in an inverted L-shape on opposite sides of the abdomen of the cycling garment 100 and adjacent to the lower chest baffle structure 160 and the rib baffle structure 170. The roughness of the abdomen diversion structure 180 is between 500 micrometers and 800 micrometers, preferably between 600 micrometers and 700 micrometers, and the diversion grain directions are respectively inclined by 25 to 35 degrees, preferably 30 degrees, relative to the axial direction Y of the cycling sportswear 100. More specifically, as seen from the front view of fig. 1C, the abdomen diversion structure 180 located on the left half of the human body is inclined 25 to 35 degrees to the left, and the abdomen diversion structure 180 located on the right half of the human body is inclined 25 to 35 degrees to the right, compared to the axial direction Y.

In addition, the cycling jersey 100 can also include a plain weave flow guide area 10 disposed on the cycling jersey 100 and having a roughness between 300 microns and 600 microns, preferably between 400 microns and 500 microns. The flow guide grain direction is inclined at 5 degrees or less, preferably 0 degrees, with respect to the axial direction Y of the cycling suit 100. The plain weave flow guide 10 may be provided as a connection in an area other than the aforementioned flow guide structure of the cycling jersey 100.

Fig. 3A is an organization diagram of a middle and low speed cycling sport suit 200 according to an embodiment of the present invention, which is a right back section D1, a front section C, and a left back section D2. Fig. 3B and 3C are a back view and a front view of the medium-high speed cycling suit 200 according to an embodiment of the present invention, wherein the cycling suit 200 of fig. 3B and 3C is a tubular structure (trunk) with sleeves according to the weaving method provided in fig. 3A.

Referring to fig. 3A to 3C, a cycling garment 200 suitable for low and medium speed cycling is disclosed herein, wherein the low and medium speed cycling is up to 15-32 km/h. The cycling garment 200 includes a back flow guide structure 210, an upper chest flow guide structure 220, and a pair of arm flow guide structures 230. The back guide structure 210 is disposed in the middle of the back of the cycling suit 200 and extends from the neck to the pendulum, and the width of the back guide structure 210 is gradually reduced along the direction that the neck extends to the pendulum. The roughness of the backside flow guiding structure 210 is between 700 microns and 1000 microns, preferably between 800 microns and 900 microns. The upper chest flow guiding structure 220 is disposed at the front upper chest of the cycling garment 200 and has a roughness of between 500 microns and 800 microns, preferably between 600 microns and 700 microns. The arm diversion structure 230 is disposed on the upper arm of the cycling sport suit 200, and has a roughness of 800 to 1100 microns, preferably 900 to 1000 microns.

In some embodiments, the flow pattern directions of the back flow guide structure 210 and the upper chest flow guide structure 220 are inclined at an angle of less than 5 degrees, preferably 0 degrees, with respect to the axial direction Y of the cycling garment 200. The direction of the flow guide lines of the arm flow guide structure 230 is inclined 25 to 35 degrees, preferably 30 degrees, with respect to the axis direction Y of the cycling sport suit 200. More specifically, from the back view of fig. 3B, compared to the axis direction Y, the flow guide line direction of the arm flow guide structure 230 located on the left half of the human body is inclined 25 to 35 degrees to the right, and the flow guide line direction of the arm flow guide structure 230 located on the right half of the human body is inclined 25 to 35 degrees to the left.

In some embodiments, the cycling garment 200 may further include a pair of side rear baffles 240 disposed on either side of the rear baffle 210. The roughness of the side back flow guide structure 240 is between 800 micrometers and 1100 micrometers, preferably between 900 micrometers and 1000 micrometers, and the flow guide grain direction is inclined by 25 to 35 degrees, preferably 30 degrees, with respect to the axial direction Y of the cycling sport suit 200. More specifically, from the back view of fig. 3B, compared to the axis direction Y, the flow guide line direction of the side back flow guide structure 240 on the left half of the human body is inclined 25 to 35 degrees to the left, and the flow guide line direction of the side back flow guide structure 240 on the right half of the human body is inclined 25 to 35 degrees to the right.

Referring to fig. 3A and 3C, in some embodiments, the cycling garment 200 may further include a pair of rib guides 280 disposed on the cycling garment 200 at positions corresponding to the ribs. The roughness of the rib guiding structure 280 is between 500 micrometers and 800 micrometers, preferably between 600 micrometers and 700 micrometers, and the direction of the guiding lines is inclined by less than 5 degrees, preferably 0 degree, relative to the axial direction Y of the cycling sportswear 200.

In some embodiments, the cycling garment 200 may further include a pair of lower chest flow guide structures 250 that engage the bottom of the upper chest flow guide structures 220. The roughness of the lower chest flow guiding structure 250 is between 400 micrometers and 700 micrometers, preferably between 500 micrometers and 600 micrometers, and the flow guiding grain direction is inclined by less than 5 degrees, preferably 0 degree, relative to the axial direction Y of the cycling sport suit 200.

In some embodiments, the cycling garment 200 may also include a pair of first side chest flow directing structures 260 and a pair of second side chest flow directing structures 270. The first lateral chest flow directing structure 260 extends from both lateral sides of the lower chest flow directing structure 250 to below the lower chest flow directing structure 250. The roughness of the first side chest flow guiding structure 260 is between 800 micrometers and 1100 micrometers, preferably between 900 micrometers and 1000 micrometers, and the flow guiding grain direction is inclined by 25-35 degrees, preferably 30 degrees, relative to the axial direction Y of the cycling sport suit 200. The second lateral chest flow directing structure 270 is disposed below the first lateral chest flow directing structure 260 and is parallel to the first lateral chest flow directing structure 260. The roughness of the second side chest flow guide structure 270 is between 500 micrometers and 800 micrometers, preferably between 600 micrometers and 700 micrometers, and the flow guide grain direction is inclined by 25 to 35 degrees, preferably 30 degrees, relative to the axial direction Y of the cycling sport suit 200.

In detail, in the front view of fig. 3C, the first side chest flow guiding structure 260 located at the left half of the human body is inclined 25 to 35 degrees to the left, and the first side chest flow guiding structure 260 located at the right half of the human body is inclined 25 to 35 degrees to the right, compared to the axial direction Y. The flow guide grain direction of the second side chest flow guide structure 270 on the left half side of the human body inclines to the left by 25-35 degrees, and the flow guide grain direction of the second side chest flow guide structure 270 on the right half side of the human body inclines to the right by 25-35 degrees.

In some embodiments, the cycling garment 200 may further include a venting structure 290, the venting structure 290 being diamond-shaped and disposed in the axilla of the cycling garment 200 adjacent to the second side chest flow directing structure 270 and the rib flow directing structure 280. The venting structure 290 may be a mesh weave structure, but is not limited thereto.

In addition, the cycling suit 200 may also include a plain weave flow guide area 20 disposed on the cycling suit 200 and having a roughness of between 300 microns and 600 microns, preferably between 400 microns and 500 microns. The direction of the air guide lines is inclined at 5 degrees or less, preferably 0 degree, with respect to the axial direction Y of the cycling sport suit 200. The plain weave flow guide 20 may be provided as a connection in an area other than the aforementioned flow guide structure of the cycling jersey 200.

In summary, in the bicycle sports wear disclosed in some embodiments of the present invention, the user can achieve the effect of effectively reducing the air resistance during the bicycle exercise by arranging different roughness and the direction of the flow guide lines at each part. In addition, the embodiment of the invention also discloses a diversion structure configuration mode aiming at the 33-50 km/h middle and high speed bicycle sports wear and a diversion structure configuration mode aiming at the 15-32 km/h middle and high speed bicycle sports wear, so that a user can wear the bicycle sports wear under different speed conditions to have good wind resistance effect.

While the present disclosure has been described with reference to exemplary embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure, and therefore, the scope of the present disclosure should be limited only by the terms of the appended claims.

Claims (8)

1. A cycling garment adapted for use in high and medium speed cycling, comprising:

the back flow guide structure is arranged in the middle block of the back of the cycling sports wear and extends from the neck to the waist, the flow guide line direction of the back flow guide structure inclines by less than 5 degrees relative to the axial direction of the cycling sports wear, and the axial direction is the same direction with the left-right symmetry line of the cycling sports wear;

the pair of shoulder diversion structures are arranged on the shoulders of the bicycle sports wear, and the diversion grain directions of the shoulder diversion structures are inclined by 25-35 degrees relative to the axis direction; and

the pair of arm flow guide structures are arranged on the upper arm of the bicycle sportswear, the flow guide line directions of the arm flow guide structures are inclined by 45-55 degrees relative to the axis direction, and the roughness of each of the back flow guide structure, the shoulder flow guide structure and the arm flow guide structure ranges from 500 micrometers to 800 micrometers.

2. The cycling garment of claim 1, further comprising:

the pair of first back flow guide structures are arranged on two sides of the back flow guide structure and below the shoulder flow guide structures; and

a pair of second back flow directing structures disposed on both sides of the back flow directing structure and below the first back flow directing structure, wherein the roughness of each of the first and second back flow directing structures is between 500 and 800 microns.

3. The cycling sport garment of claim 2, wherein the flow guide grain direction of the first back flow guide structure is inclined 45-55 degrees relative to the axial direction.

4. The cycling sport garment of claim 2, wherein the flow guide grain direction of the second back flow guide structure is inclined 50-60 degrees relative to the axial direction.

5. A cycling garment, suitable for cycling at medium and low speeds, comprising:

the back flow guide structure is arranged in the middle block of the back of the bicycle sports wear and extends from the neck to the wear pendulum, the flow guide line direction of the back flow guide structure inclines by less than 5 degrees relative to the axial direction of the bicycle sports wear, the axial direction is the same direction with the left-right symmetry line of the bicycle sports wear, and the roughness of the back flow guide structure is between 700 micrometers and 1000 micrometers;

the upper chest flow guiding structure is arranged at the upper chest part on the front side of the bicycle sports wear, the flow guiding line direction of the upper chest flow guiding structure inclines by less than 5 degrees relative to the axis direction, and the roughness of the upper chest flow guiding structure is between 500 and 800 micrometers; and

the pair of arm flow guide structures are arranged on the upper arm of the bicycle sportswear, the flow guide line direction of the arm flow guide structures is inclined by 25-35 degrees relative to the axis direction, and the roughness of the arm flow guide structures ranges from 800 micrometers to 1100 micrometers.

6. The bicycle sports garment according to claim 5, further comprising a pair of side back flow guide structures respectively disposed on both sides of the back flow guide structure, wherein the roughness of the side back flow guide structures is between 800 microns and 1100 microns, and the flow guide line direction is inclined by 25-35 degrees with respect to the axial direction.

7. The cycling sport garment according to claim 5, further comprising a pair of rib flow-guiding structures, wherein the rib flow-guiding structures are arranged on the cycling sport garment at positions corresponding to ribs, the roughness of the rib flow-guiding structures is 500-800 micrometers, and the flow-guiding line direction is inclined by less than 5 degrees relative to the axis direction.

8. The cycling garment according to claim 5, further comprising a plain flow guide region disposed on the cycling garment and having a roughness of between 300 microns and 600 microns, wherein the flow guide direction is inclined at less than 5 degrees relative to the axial direction.

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