Bionic bird wing movement clothing, top
By designing biomimetic bird wing sportswear, the garment adapts itself to different movement states, solving the problems of insufficient comfort and movement space in traditional clothing, and achieving highly comfortable and breathable sportswear.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 报喜鸟控股股份有限公司
- Filing Date
- 2025-07-21
- Publication Date
- 2026-06-09
Smart Images

Figure CN224330425U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of clothing design technology, and in particular to a biomimetic bird wing sportswear and top. Background Technology
[0002] Traditional clothing design faces the following challenges in terms of comfort and freedom of movement:
[0003] Traditional clothing designs are largely based on conventional static anthropometric measurements and simple cutting methods, making it difficult to fully meet the needs of dynamic human movement. Furthermore, traditional clothing often uses relatively fixed fabrics, lacking adaptability to the dynamic changes in stretch generated during movement. During exercise, different movements cause varying degrees of stretching in different parts of the body, and traditional fabrics struggle to adjust accordingly to these dynamic changes. This results in limited comfort.
[0004] Traditional clothing designs often fail to adequately consider the range of motion and movement trajectory of the human joints. The overall fit of the garment is either too loose or too tight, making it impossible to adjust the size of the clothing in real time according to the body's movement. This results in either too much space affecting the accuracy of movements or too little space causing a feeling of restriction during exercise, thus leading to insufficient room for movement. Utility Model Content
[0005] This application provides a biomimetic bird wing sportswear / top to improve comfort and freedom of movement.
[0006] The embodiments of this application adopt the following technical solutions:
[0007] In the first aspect, this application provides a biomimetic bird wing sportswear, wherein the clothing includes: a back piece (4) and a front piece (1), the front piece (1) is connected to a large sleeve (3) through a side piece (2), the large sleeve (3) and the small sleeve (7) cooperate to form a sleeve structure, the sleeve structure can be freely folded or opened within a preset range, the back piece (4) is connected to a back raglan (5), the back piece (4) is provided with a mesh fabric (6), and also includes multiple unfolding areas (8), each unfolding area (8) includes at least the area where the small sleeve (7) overlaps with the side piece (2), the area where the small sleeve (7) is connected with the back piece (4), and the area where the mesh fabric (6) is connected with the back piece (4), the unfolding area (8) can be folded and stored to fit the body or opened to release activity space.
[0008] In some embodiments, the area where the sleeve (7) overlaps with the side piece (2) is a first unfolding area, which is an overlapping unfolding area, where the sleeve (7) overlaps with the side piece (2).
[0009] In some embodiments, the area where the sleeve (7) connects to the back piece (4) is a second unfolding area. The second unfolding area unfolds or folds as the sleeve structure swings, increasing the range of motion of the sleeve (7) and the back piece (4).
[0010] In some embodiments, the area where the mesh fabric (6) connects to the back piece (4) is a third unfolding area, which is a hidden hinge.
[0011] In some embodiments, the mesh fabric (6) adopts a back-concealed design.
[0012] In some embodiments, the mesh (6) adopts an elastic structure.
[0013] In some embodiments, the device further includes a breathable flap disposed on the side panel (2).
[0014] In some embodiments, the device further includes a ventilation and heat dissipation gap, which is disposed on the front sheet (1), the side sheet (2), or the rear sheet (4).
[0015] In some embodiments, the back piece (4), the back raglan sleeve (5), and the sleeve (7) are integrally formed.
[0016] Secondly, embodiments of this application also provide a top, which includes the garment described in the first aspect.
[0017] The above-mentioned technical solutions adopted in this application embodiment can achieve the following beneficial effects: The garment includes a back piece (4) and a front piece (1). The front piece (1) is connected to the large sleeve (3) through the side piece (2). The large sleeve (3) and the small sleeve (7) cooperate to form a sleeve structure. The sleeve structure can be freely folded or opened within a preset range to reduce the feeling of restriction and enhance the flexibility of movement. The back piece (4) is connected to the back raglan (5). The back piece (4) is provided with a mesh fabric (6) for ventilation and heat dissipation. It also includes multiple unfolding areas (8). Each unfolding area (8) includes at least the area where the small sleeve (7) overlaps with the side piece (2), the area where the small sleeve (7) is connected to the back piece (4), and the area where the mesh fabric (6) is connected to the back piece (4). The unfolding area (8) can be folded and stored to fit the body or opened to release the activity space. Therefore, the clothing can be folded and stored to fit the body when at rest or during low-intensity exercise; during high-intensity exercise, it automatically opens to release space and avoid compressing muscles or joints.
[0018] Furthermore, the bionic bird wing sportswear in this application embodiment can be widely applied to various fields such as suits, casual wear, sportswear, outdoor adventure clothing, and aerospace special clothing, aiming to improve the wearer's comfort and ease of movement. Attached Figure Description
[0019] The accompanying drawings, which are included to provide a further understanding of this application and form part of this application, illustrate exemplary embodiments and are used to explain this application, but do not constitute an undue limitation of this application. In the drawings:
[0020] Figure 1 This is a schematic diagram of the various components in the bionic bird wing sportswear in the embodiments of this application;
[0021] Figure 2 This is a schematic diagram illustrating the unfolding or folding of the bionic bird wing sportswear in the embodiments of this application. Detailed Implementation
[0022] To make the objectives, technical solutions, and advantages of this application clearer, the technical solutions of this application will be clearly and completely described below in conjunction with specific embodiments and corresponding drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of them. Based on the embodiments in this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.
[0023] During movement, the human body undergoes complex movements and deformations in various parts, which places special demands on clothing.
[0024] The first consideration is dynamic adaptability. Human movement is complex and varied, and different movements exert different forces on clothing. Therefore, clothing needs to have good dynamic adaptability, adjusting its shape and size in real time with the body's movements to ensure a good fit and comfort. For example, when performing flexibility exercises such as yoga, clothing needs to be able to stretch freely with the bending and twisting of the body; when performing strenuous activities such as running and basketball, clothing needs to have sufficient elasticity to cushion the impact.
[0025] Secondly, breathability and heat dissipation are important considerations. During exercise, the body's metabolism accelerates, producing a large amount of sweat and heat. If clothing lacks breathability and heat dissipation, sweat and heat will accumulate on the body surface, causing body temperature to rise and affecting athletic performance and overall health. Therefore, clothing needs to have good breathability and heat dissipation to effectively wick away sweat and heat, keeping the body dry and comfortable.
[0026] Finally, lightweight and flexibility are considered. To avoid hindering movement, clothing needs to be lightweight and flexible. Lightweight clothing reduces the burden on the body and improves mobility; flexible clothing can adapt to various movement postures and avoid a feeling of restriction.
[0027] While bionics has some applications in the clothing industry, research on the application of biomimetic bird wing folding and unfolding structures in clothing is almost nonexistent. Current technology cannot achieve the flexible folding and unfolding of clothing like a bird's wing to adapt to the dynamic changes during human movement. With the increasing popularity of sports and outdoor lifestyles, people are placing higher demands on the movement functionality of clothing. Therefore, there is a desire for everyday suits, casual wear, sportswear, and outdoor adventure clothing to incorporate biomimetic bird wing folding and unfolding structures, enabling the clothing to automatically adjust its shape and size during human movement, improving comfort and freedom of movement, and meeting the market's demand for high-performance movement clothing.
[0028] The technical solutions provided by the various embodiments of this application are described in detail below with reference to the accompanying drawings.
[0029] This application provides a biomimetic bird wing sportswear, such as Figure 1 The diagram shows the various components of the biomimetic bird wing sportswear in this embodiment of the application. The clothing includes a back piece 4 and a front piece 1. The front piece 1 is connected to the large sleeve 3 via a side piece 2. The large sleeve 3 and the small sleeve 7 cooperate to form a sleeve structure. The sleeve structure can be freely folded or opened within a preset range. The back piece 4 is connected to a back raglan 5. The back piece 4 is provided with a mesh fabric 6 and also includes multiple unfolding areas 8. Each unfolding area 8 includes at least the area where the small sleeve 7 overlaps with the side piece 2, the area where the small sleeve 7 connects with the back piece 4, and the area where the mesh fabric 6 connects with the back piece 4. The unfolding area 8 can be folded and stored to fit the body or opened to release activity space.
[0030] The back piece 4 and the front piece 1 can use common garment structures as basic components. Further, the front piece 1 is connected to the large sleeve 3 via side pieces 2. It can be understood that side pieces of clothing typically refer to components located on both sides of the garment. The large sleeve 3 and the small sleeve 7 cooperate to form a sleeve structure, and through a biomimetic bird wing folding and opening structure, the garment achieves an adaptive response to human movement, reducing the feeling of restriction and enhancing flexibility of movement; that is, the sleeve structure can freely fold or open within a preset range. The back piece 4 is connected to the back raglan 5, and the back piece 4 is provided with mesh fabric 6 and includes multiple unfolding areas 8. Figure 2 As shown, multiple unfolding zones 8 are distributed in different positions to achieve the effect of unfolding and retracting.
[0031] Furthermore, each of the aforementioned unfolding areas 8 includes at least the area where the sleeve 7 overlaps with the side panel 2, serving as an overlapping unfolding area to provide stretch space during movement and to fold and fit snugly against the body when stationary; the area where the sleeve 7 connects to the back panel 4, serving as an approximately 3-5cm unfolding area at the connection between the sleeve 7 and the back panel 4; and the area where the mesh fabric 6 connects to the back panel 4, serving as a concealed unfolding area between the mesh fabric 6 and the back panel 4. The unfolding areas 8 can be folded and stored to fit snugly against the body or unfolded to release movement space. Thus, during stationary or low-intensity movement, the garment can be folded and stored to fit snugly against the body; during high-intensity movement, it automatically unfolds to release movement space, avoiding compression of muscles or joints. The unfolding areas 8 can adaptively adjust their shape during human movement.
[0032] The aforementioned structure can adaptively adjust its shape during human movement, optimizing airflow and mechanical support, and is suitable for suits, casual wear, sportswear, outdoor equipment, and special clothing.
[0033] In one embodiment of this application, the area where the sleeve 7 overlaps with the side piece 2 is a first unfolding area, which is an overlapping unfolding area, where the sleeve 7 overlaps with the side piece 2.
[0034] like Figure 2 As shown, the first unfolding area provides dynamic adaptability to the overlapping unfolding area, and can adjust its shape and size in real time with the movement of the human body to ensure the fit and comfort of the clothing.
[0035] Specifically, the first unfolded area is an overlapping unfolded area, where the small sleeve 7 and the side piece 2 are overlapped, such as... Figure 2 As shown, the overlapping expansion area can improve dynamic adaptability, adjusting its shape and size in real time as the human body moves.
[0036] In one embodiment of this application, the area where the sleeve 7 connects to the back piece 4 is a second unfolding area. The second unfolding area unfolds or folds as the sleeve structure swings, increasing the range of motion of the sleeve 7 and the back piece 4.
[0037] like Figure 2 As shown, the second unfolding area unfolds or folds with the swing of the sleeve structure, improving the dynamic adaptability of the garment. It can adjust its shape and size in real time with the movement of the human body to ensure the fit and comfort of the garment.
[0038] In one embodiment of this application, the area where the mesh fabric 6 connects to the back piece 4 is a third unfolding area, which is a hidden hinge.
[0039] like Figure 2As shown, the third unfolding area can serve as a heat dissipation area, enabling the clothing to have good breathability and heat dissipation, and to expel sweat and heat from the body in a timely manner, keeping the body dry and comfortable.
[0040] In one embodiment of this application, the mesh fabric 6 adopts a back-hidden design.
[0041] The mesh fabric 6 features a concealed back design, such as Figure 2 As shown, it can achieve breathability without revealing the mesh structure.
[0042] In one embodiment of this application, the mesh fabric 6 adopts an elastic structure.
[0043] The mesh fabric can also have an elastic structure, and preferably uses flexible materials and biomimetic mechanical design to reduce the weight of the garment while ensuring support, and optimize air circulation and mechanical support.
[0044] In one embodiment of this application, it further includes: a breathable flap, the breathable flap being disposed on the side panel 2.
[0045] like Figure 2 As shown, the "breathable flaps" include multiple flaps that can be disposed on the side panel 2 to improve breathability.
[0046] In one embodiment of this application, it further includes: a ventilation and heat dissipation gap, which is disposed on the front piece 1, the side piece 2, or the rear piece 4.
[0047] The breathable and heat-dissipating gaps guide airflow, accelerate sweat evaporation, and reduce stuffiness.
[0048] In one embodiment of this application, the back piece 4, the back shoulder 5, and the small sleeve 7 are integrally formed.
[0049] The one-piece molding structure facilitates production and manufacturing, and the integrated design of the back piece 4, the back raglan sleeve 5, and the small sleeve 7 improves flexibility and saves fabric. Lightweight clothing reduces the burden on the body and improves the flexibility of movement; flexible clothing can adapt to various movement postures and avoids a feeling of restriction.
[0050] This application embodiment also provides a top, which includes the aforementioned garment, comprising: a back piece 4 and a front piece 1. The front piece 1 is connected to a large sleeve 3 via a side piece 2. The large sleeve 3 and a small sleeve 7 cooperate to form a sleeve structure. The sleeve structure can be freely folded or opened within a preset range. The back piece 4 is connected to a back raglan 5. The back piece 4 is provided with a mesh fabric 6 and also includes multiple unfolding areas 8. Each unfolding area 8 includes at least the area where the small sleeve 7 overlaps with the side piece 2, the area where the small sleeve 7 connects with the back piece 4, and the area where the mesh fabric 6 connects with the back piece 4. The unfolding area 8 can be folded and stored to fit the body or opened to release movement space.
[0051] The above description is merely an embodiment of this application and is not intended to limit the scope of this application. Various modifications and variations can be made to this application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the scope of the claims of this application.
Claims
1. A biomimetic bird wing sportswear, wherein, The garment includes a back piece (4) and a front piece (1). The front piece (1) is connected to the large sleeve (3) via a side piece (2). The large sleeve (3) and the small sleeve (7) work together to form a sleeve structure. The sleeve structure can be freely folded or opened within a preset range. The back piece (4) is connected to a back raglan (5). The back piece (4) is provided with a mesh fabric (6). It also includes multiple unfolding areas (8). Each unfolding area (8) includes at least the area where the small sleeve (7) overlaps with the side piece (2), the area where the small sleeve (7) connects with the back piece (4), and the area where the mesh fabric (6) connects with the back piece (4). The unfolding area (8) can be folded and stored to fit the body or opened to release activity space.
2. The garment as described in claim 1, wherein, The area where the sleeve (7) overlaps with the side piece (2) is the first unfolding area. The first unfolding area is the overlapping unfolding area, where the sleeve (7) overlaps with the side piece (2).
3. The garment as described in claim 1, wherein, The area where the sleeve (7) connects to the back piece (4) is the second unfolding area. The second unfolding area unfolds or folds as the sleeve structure swings, increasing the range of motion of the sleeve (7) and the back piece (4).
4. The garment as described in claim 1, wherein, The area where the mesh fabric (6) connects to the back piece (4) is the third unfolding area, which is a hidden hinge.
5. The garment as described in claim 1, wherein, The mesh fabric (6) adopts a back-hidden design.
6. The garment as claimed in claim 1, wherein, The mesh (6) adopts an elastic structure.
7. The garment as claimed in claim 1, wherein, Also includes: A breathable hinge is provided on the side panel (2).
8. The garment as claimed in claim 1, wherein, It also includes: a ventilation and heat dissipation gap, which is provided on the front piece (1), the side piece (2) or the rear piece (4).
9. The garment as claimed in claim 1, wherein, The back piece (4), the back raglan sleeve (5), and the small sleeve (7) are integrally formed.
10. A type of top, wherein, Including the clothing as described in any one of claims 1 to 9.