High-elasticity ventilated clothing and jacket for imitating bird wing movement
By incorporating flat knitting zones and ventilation holes in key areas of the garment, the problems of traditional textile garments being prone to stretching and deformation during movement and insufficient breathability are solved. This achieves dynamic stretching and static support effects for highly elastic and breathable garments, thereby improving wearing comfort.
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
- 2025-08-07
- Publication Date
- 2026-06-16
AI Technical Summary
Traditional textile clothing is prone to stretching and deformation during exercise and lacks breathability, while everyday outerwear lacks flexibility and wearing comfort. Existing technology struggles to balance dynamic stretching, static support, and breathability.
By incorporating ventilation holes into key parts of the garment through the knitting area of the flat knitting machine, ventilation holes are set in the overlapping part of the sleeves and side panels, and the flat knitting process is used to enhance the elasticity and breathability of the cut pieces.
It achieves high elasticity and breathability in clothing during strenuous exercise, meets dynamic stretching requirements, and maintains static support, thereby improving wearing comfort.
Smart Images

Figure CN224357078U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of textile and apparel manufacturing technology, and in particular to a highly elastic and breathable garment or top that mimics the movement of a bird's wing. Background Technology
[0002] Traditional blazers and casual jackets are mostly made using pure flat knitting or pure woven sewing methods, resulting in a limited range of techniques. Traditional techniques cannot balance dynamic stretching and static support; for example, sports jackets are prone to stretching and deformation during strenuous exercise, while everyday jackets lack breathability, flexibility, and natural comfort when worn. Utility Model Content
[0003] This application provides a highly elastic and breathable garment or top that mimics the movement of a bird's wing, with a flat knitting area corresponding to key parts, while also increasing breathability.
[0004] The embodiments of this application adopt the following technical solutions:
[0005] In a first aspect, embodiments of this application provide a highly elastic and breathable garment for biomimetic bird wing movement, wherein the garment includes: a small sleeve (4) and a side panel (2), the upper part of the small sleeve (4) and the upper part of the side panel (2) are spliced together to form an overlapping part (10) and a reserved amount for folding, the upper part of the small sleeve (4) is a flat knitting area, the upper part of the side panel (2) is a flat knitting area, and also includes: a ventilation hole (11), the ventilation hole (11) is opened in the overlapping part (10), the overlapping part (10) includes a flat knitting process piece (12).
[0006] In some embodiments, the flat knitting area includes any one or more flat knitting methods such as double-sided knitting area, rib knitting area, and double-sided plain knitting area.
[0007] In some embodiments, the upper and lower parts of the sleeve (4) are both knitted using a double-sided plain knitting method to obtain the flat knitting area.
[0008] In some embodiments, the upper and lower parts of the sleeve (4) each include a double-sided plain knit area as the flat knitting area.
[0009] In some embodiments, the flat knitting machine process pieces (12) include a plurality of pieces, which are interspersed with the ventilation holes (11).
[0010] In some embodiments, the vent holes (11) are arranged in a regular pattern on the overlapping portion (10).
[0011] In some embodiments, the overlapping portion (10) is obtained by double-sided plain knitting.
[0012] In some embodiments, it further includes: a front piece (1) and a back piece (3), the front piece (1) being connected to the back piece (3) via the side piece (2), the armhole at the seam where the front piece (1) and the back piece (3) are sewn together being a flat knitting area, and the upper half of the side piece (2) being a flat knitting area.
[0013] In some embodiments, a large sleeve (5) is also included, the small sleeve (4) is connected to the large sleeve (5), and the upper part of the small sleeve (4) and the rear part of the large sleeve (5) are both knitting areas of a flat knitting machine.
[0014] Secondly, embodiments of this application also provide a top, which includes the biomimetic bird wing movement garment described in the first aspect.
[0015] The above-mentioned technical solutions adopted in the embodiments of this application can achieve the following beneficial effects: the upper part of the sleeve (4) and the upper part of the side piece (2) are spliced together to form an overlapping part (10) and a folding allowance is reserved. At the same time, the upper part of the sleeve (4) is the knitting area of the flat knitting machine, and the upper part of the side piece (2) is the knitting area of the flat knitting machine, which meets the requirement of high elasticity. In addition, it also includes a ventilation hole (11), which is opened in the overlapping part (10). The overlapping part (10) includes a flat knitting machine process piece (12), which can play a role in breathability and moisture permeability. Attached Figure Description
[0016] 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:
[0017] Figure 1 This is a schematic diagram showing the disassembly and reassembly of the small sleeve and side panel of the high-elasticity breathable garment with biomimetic bird wing movement in the embodiments of this application;
[0018] Figure 2 This is one of the schematic diagrams showing the connection between the small sleeve and the side panel in the high-elasticity breathable garment with biomimetic bird wing movement in the embodiments of this application;
[0019] Figure 3 This is the second schematic diagram showing the connection between the sleeve and side panel of the highly elastic and breathable garment with biomimetic bird wing movement in the embodiments of this application.
[0020] Figure 4 This is a schematic diagram of the structure of a highly elastic and breathable garment cut / woven piece with biomimetic bird wing movement in an embodiment of this application. Detailed Implementation
[0021] 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.
[0022] The technical solutions provided by the various embodiments of this application are described in detail below with reference to the accompanying drawings.
[0023] This application provides a highly elastic and breathable garment that mimics the movement of bird wings, such as... Figure 1 The diagram shown illustrates the disassembly and assembly of the small sleeves and side panels in a highly elastic and breathable garment incorporating biomimetic bird wing motion. Please refer to the diagram. Figure 2 and Figure 3 Specifically, it includes a schematic diagram of the connection relationship between the sleeve and the side panel. The garment includes a sleeve 4 and a side panel 2. The upper part of the sleeve 4 and the upper part of the side panel 2 are spliced together to form an overlapping part 10 and leave room for folding. The upper part of the sleeve 4 is a flat knitting area, and the upper part of the side panel 2 is a flat knitting area. It also includes a ventilation hole 11, which is opened in the overlapping part 10. The overlapping part 10 includes a flat knitting process piece 12.
[0024] The sleeve 4 and the side panel 2 are connected and overlapped at the upper part of the sleeve 4 and the upper part of the side panel 2 to form an overlapping portion 10. This overlapping portion 10 can be considered as reserving a folding allowance or a separate folding allowance; it is not specifically limited in this embodiment. The upper part of the sleeve 4 and the upper part of the side panel 2 are both knitted using a flat knitting machine, thereby increasing the elasticity of the upper parts of both the sleeve 4 and the side panel 2. Specifically, ventilation holes 11 are knitted at the underarm area where the side panel and sleeve are connected using a "tucked-loop breathable stitch method" or a "pick-hole breathable stitch method" according to a set arrangement rule, giving the garment better breathability and moisture permeability when worn, thus providing underarm breathability. The overlapping portion 10 also includes a flat knitting machine piece 12, which is embedded in the overlapping portion 10 and evenly distributed across the ventilation holes 11.
[0025] As we can understand, flat knitting fabric pieces are garment units woven using flat knitting machines in garment production. They are mainly used for areas requiring lateral elasticity, such as collars and cuffs. Their characteristic is the use of alternating knit and purl stitches to form loops, resulting in good lateral stretchability.
[0026] It can be understood that the flat knitting area refers to the various parts of the garment that are knitted using a computerized flat knitting machine. Different weave structures are used in different areas of the garment. High-elasticity knitting structures or honeycomb structures, extending laterally or in four directions, are designed for the shoulder and armhole areas, chest and back, and elbow joint areas, covering the dynamic areas around the shoulder and elbow joints. Double-sided plain knit structures are used in other parts of the garment body and sleeves. This tight weave provides good support while maintaining the natural drape and body-fitting nature of the flat knit fabric.
[0027] It is important to note that the flat knitting machine uses different weaving methods in different areas of the fabric, which is different from the related technology that only uses flat knitting. Although this can achieve local elasticity such as ribbed cuffs, the overall structure is not rigid enough and it is difficult to maintain complex three-dimensional shapes. Alternatively, if only pure woven sewing is used, the fabric will be stiff but have poor extensibility and will easily wrinkle and feel restrictive during movement.
[0028] The highly elastic and breathable garment featuring biomimetic bird wing movement incorporates allowances for gathering and folding in the sleeve 4 and side panels 2. Both the upper parts of the sleeve 4 and side panels are knitted using a flat knitting machine, increasing their elasticity and ensuring the resulting gathering and folding allowance meets the requirements for elastic stretching. This allows for the creation of ventilation holes at the armpit areas of the sleeve 4 and side panels 2 according to a predetermined pattern, resulting in superior breathability and moisture permeability when worn.
[0029] In one embodiment of this application, the flat knitting area includes any one or more flat knitting methods such as double-sided knitting, rib knitting, and double-sided plain knitting.
[0030] like Figure 4 As shown, it includes different weaving areas, specifically:
[0031] The double-sided knitting technique results in identical appearance on both sides, a thick texture, good warmth retention, and good horizontal and vertical extensibility and elasticity, making it less prone to curling.
[0032] Ribbed weave offers good lateral stretch and elasticity, allowing it to stretch and contract with body movements for a close-fitting and comfortable feel. The 1+1 rib weave provides the greatest elasticity and features clear stripes.
[0033] The double-sided plain knit weave has different appearances on the front and back sides, providing good warmth retention, excellent dimensional stability, and preventing curling.
[0034] The flat knitting area specifically includes a double-sided knitting area 7, a rib knitting area 9, and a double-sided plain knitting area 8. Different knitting methods are used in different areas of the garment. High-elasticity knitting or honeycomb knitting is designed in the shoulder and armhole areas, chest and back areas, and elbow joint areas, covering the dynamic areas around the shoulder and elbow joints. Double-sided plain knitting is used in other parts of the body and sleeves. This tight knitting provides good support while maintaining the natural drape and conformability of the flat knitted garment.
[0035] The areas obtained by any one or more of the double-sided knitting methods, such as the double-sided knitting area 7, the rib knitting area 9, and the double-sided plain knitting area 8, achieve dynamic hinges. In particular, at the joint connection, the elastic bands knitted by the flat knitting machine are similar to the tendons of a bird's wing, and the cross-overlapping seams of the woven stitches are similar to bones, achieving a folding range of at least 140°.
[0036] In one embodiment of this application, the upper and lower parts of the sleeve 4 both include the double-sided plain knitting area 8 as the flat knitting area of the flat knitting machine.
[0037] like Figure 3 and 4 As shown, using the double-sided plain knitting area 8 as the flat knitting area can improve the support effect of the upper and lower parts of the sleeve, thereby maintaining the natural forward-leaning shape of the arm.
[0038] In one embodiment of this application, the middle part of the small sleeve 4 uses the double-sided knitted area 7 as the gathering and folding amount to better meet the comfort of elbow movement.
[0039] like Figure 3 and 4 As shown, the double-sided knitting pattern in area 7 increases the elasticity of the gathered folds while meeting the requirements for lateral and longitudinal extension.
[0040] In one embodiment of this application, the flat knitting machine process cutting piece 12 includes a plurality of pieces, which are interspersed with the ventilation holes 11.
[0041] like Figure 3 As shown, the flat knitting machine process cutting piece 12 includes multiple pieces and is interspersed with the ventilation holes 11 in the overlapping part 10.
[0042] In one embodiment of this application, the vent holes 11 are arranged in a regular pattern on the overlapping portion 10.
[0043] like Figure 3As shown, ventilation holes are woven according to a set arrangement rule, which makes the garment more breathable and moisture-wicking when worn, and gives the garment underarm ventilation function.
[0044] In one embodiment of this application, the overlapping portion 10 includes a double-sided plain knit area 8.
[0045] The overlapping portion 10 is knitted with a double-sided plain knit pattern to obtain a double-sided plain knit pattern area 8, which increases the elasticity of this area.
[0046] In one embodiment of this application, it further includes: a front piece 1 and a back piece 3, the front piece 1 being connected to the back piece 3 via the side piece 2, the armhole at the seam where the front piece 1 and the back piece 3 are sewn together being a flat knitting area, and the upper half of the side piece 2 being a flat knitting area.
[0047] In one embodiment of this application, a large sleeve 5 is also included, and the small sleeve 4 is connected to the large sleeve 5. The upper part of the small sleeve 4 and the rear part of the large sleeve 5 are both knitting areas of a flat knitting machine.
[0048] The garment comprises a front piece 1, side pieces 2, and a back piece 3. The front piece 1 is connected to the back piece 3 via the side pieces 2. A flat knitting area 6 is located at the armhole; the armhole refers to the seam where the front piece 1 and the back piece 3 are sewn together. Simultaneously, the upper half of the side piece 2 is also a flat knitting area 6. This design of the flat knitting area 6 allows the movement area to simulate the mechanical characteristics of a bird's wing folding and opening motion. Furthermore, the garment includes a small sleeve 4 and a large sleeve 5, connected to each other. The upper part of the small sleeve 4 and the back part of the large sleeve 5 are both flat knitting areas 6, accommodating the extension and contraction of the sleeves. Through the flat knitting area 6, different weaving techniques are used in different areas of the fabric. For example, highly elastic knitted structures or honeycomb structures are designed in the shoulder and armhole areas, chest and back areas, and elbow joint areas, covering the dynamic areas around the shoulder and elbow joints. Meanwhile, the body and other parts of the sleeves are knitted with a double-sided plain knit. This knitting method is tight and has a good supporting effect while maintaining the natural drape and body conformity of the flat knitted piece.
[0049] This application embodiment also provides a top, which includes the aforementioned biomimetic bird wing movement garment. The garment includes: a small sleeve 4 and a side panel 2. The upper part of the small sleeve 4 and the upper part of the side panel 2 are spliced together to form an overlapping part 10 and leave room for folding. The upper part of the small sleeve 4 is a flat knitting area, and the upper part of the side panel 2 is a flat knitting area. It also includes: a ventilation hole 11, which is opened in the overlapping part 10. The overlapping part 10 includes a flat knitting process piece 12.
[0050] In some embodiments, the flat knitting area includes any one or more flat knitting methods such as double-sided knitting, rib knitting, and double-sided plain knitting.
[0051] In some embodiments, the upper and lower parts of the small sleeve 4 are both knitted using a double-sided plain knitting method to obtain the flat knitting area.
[0052] In some embodiments, the middle part of the small sleeve 4 is knitted with a double-sided knit and purl stitch as the amount of gathering and folding.
[0053] In some embodiments, the flat knitting machine process cutting pieces 12 include a plurality of pieces, which are interspersed with the ventilation holes 11.
[0054] In some embodiments, the vent holes 11 are arranged in a regular pattern on the overlapping portion 10.
[0055] In some embodiments, the overlapping portion 10 is obtained by double-sided plain knitting.
[0056] In some embodiments, the device further includes a front piece 1 and a back piece 3, wherein the front piece 1 is connected to the back piece 3 via the side piece 2, the armhole at the seam between the front piece 1 and the back piece 3 is a flat knitting area, and the upper half of the side piece 2 is a flat knitting area.
[0057] In some embodiments, a large sleeve 5 is also included, and the small sleeve 4 is connected to the large sleeve 5. The upper part of the small sleeve 4 and the rear part of the large sleeve 5 are both knitting areas of a flat knitting machine.
[0058] 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 highly elastic and breathable garment that mimics bird wing movement, wherein, The garment includes: a small sleeve (4) and a side panel (2). The upper part of the small sleeve (4) is spliced with the upper part of the side panel (2) to form an overlapping part (10) and a folding allowance is reserved. The upper part of the small sleeve (4) is a flat knitting area, and the upper part of the side panel (2) is a flat knitting area. It also includes: a ventilation hole (11). The ventilation hole (11) is opened in the overlapping part (10). The overlapping part (10) includes a flat knitting process piece (12).
2. The garment as described in claim 1, wherein, The flat knitting area includes the area obtained by any one or more of the following flat knitting methods: double-sided knitting with reverse stitches, rib knitting, and double-sided plain knitting.
3. The garment as described in claim 2, wherein, The upper and lower parts of the sleeve (4) both include double-sided plain knitting areas as the flat knitting area.
4. The garment as described in claim 3, wherein, The middle part of the sleeve (4) uses a double-sided knitting pattern as the gathering and folding amount.
5. The garment as described in claim 1, wherein, The flat knitting machine process cutting pieces (12) include multiple pieces, which are interspersed with the ventilation holes (11).
6. The garment as claimed in claim 1, wherein, The ventilation holes (11) are arranged in a regular pattern on the overlapping part (10).
7. The garment as described in claim 6, wherein, The overlapping portion (10) includes a double-sided plain knit area.
8. The garment as claimed in claim 1, wherein, Also includes: The front piece (1) and the back piece (3) are connected to the back piece (3) through the side piece (2). The armhole at the seam between the front piece (1) and the back piece (3) is the knitting area of the flat knitting machine, and the upper half of the side piece (2) is the knitting area of the flat knitting machine.
9. The garment as claimed in claim 1, wherein, It also includes a large sleeve (5), the small sleeve (4) is connected to the large sleeve (5), and the upper part of the small sleeve (4) and the rear part of the large sleeve (5) are both knitting areas of a flat knitting machine.
10. A type of top, wherein, Including clothing for biomimetic bird wing movement as described in any one of claims 1 to 9.