A type of sock made of ginger fiber
By incorporating breathable sections and elastic binding elements into ginger fiber socks, a dynamic biomimetic breathing structure is created, solving the problem of poor elasticity recovery in ginger fiber socks and improving breathability and comfort.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 卢楷锐
- Filing Date
- 2025-08-29
- Publication Date
- 2026-06-30
AI Technical Summary
Ginger fiber socks have poor elasticity recovery during use, which leads to wrinkles, affecting their appearance and breathability, and making it difficult to keep feet dry and comfortable.
Breathable sections are designed for the instep and sole areas of the socks. These sections are made of a functional fabric layer composed of ginger fiber material, with breathable grooves on the surface. They are kept taut by elastic fasteners, forming a dynamic biomimetic breathing structure in conjunction with foot movements.
It effectively solves the problem of poor elasticity in ginger fiber socks, maintains breathability and comfort, and improves antibacterial and moisture-wicking effects.
Smart Images

Figure CN224420156U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of clothing and textile technology, specifically to a type of sock made of ginger fiber. Background Technology
[0002] Ginger fiber, as a natural functional fiber, is widely used in the textile industry, especially in sock manufacturing, due to its excellent antibacterial, bacteriostatic, blood circulation promoting, and warmth-retaining properties.
[0003] However, existing ginger fiber socks have shortcomings in use. Due to the poor elasticity of ginger fiber, the socks tend to stretch and form wrinkles that cannot recover on their own when worn. This not only affects the appearance and causes the inner surface of the sock to not fit the skin of the foot, resulting in local pressure and discomfort, but also causes the ginger fiber material to pile up and overlap, severely hindering air circulation and significantly reducing the breathability of the socks. This makes it difficult for moisture and heat from the feet to escape in time, creating a damp and stuffy environment inside the socks. In turn, it weakens the dry and comfortable experience that ginger fiber provides to socks, and may also reduce its antibacterial and antimicrobial effects and even cause odor. Utility Model Content
[0004] In view of the shortcomings of the existing technology, this utility model provides a sock made of ginger fiber.
[0005] To achieve the above objectives, the technical solution of this utility model is as follows:
[0006] A type of sock made of ginger fiber, comprising a sock body, wherein breathable portions are provided in both the instep area and the sole area of the sock body;
[0007] The breathable part includes a functional fabric layer made of ginger fiber material. The surface of the functional fabric layer is provided with a plurality of breathable grooves with a cross-section of "V". An elastic fastening member is provided around the periphery of the functional fabric layer. The elastic fastening member is used to provide tensile force to the periphery of the functional fabric layer so as to keep the functional fabric layer in a taut state and keep the breathable grooves open.
[0008] When the user's feet move, the functional fabric layer is tightened by the bending action of the feet to force the opening of the ventilation groove to increase; the functional fabric layer is reset by the relaxation action of the feet and the elastic force of the elastic fastener to force the opening of the ventilation groove to decrease, forming a dynamic biomimetic breathing structure.
[0009] Preferably, the ventilation groove is slit-shaped.
[0010] Preferably, the ventilation grooves located in the instep area extend along the length of the sock.
[0011] Preferably, the breathable grooves located in the foot area extend along the width of the sock body to form an anti-slip pattern.
[0012] Preferably, the functional fabric layer located on the sole of the sock has a plurality of hemispherical protrusions, each of which is close to a corresponding ventilation groove.
[0013] Preferably, the opening of the sock body is provided with an elastic sock cuff.
[0014] Compared with the prior art, the beneficial effects of this utility model are as follows: by combining the elastic binding element with the functional fabric layer, the problem of easy wrinkling caused by the poor elasticity of ginger fiber is effectively solved, the ventilation groove opening can be maintained, and the breathability can be guaranteed to be stable; and in conjunction with the movement of the sock, the ventilation groove opens and closes to form a "bionic breathing" action to accelerate the exhaust and moisture removal effect. While maintaining a high ginger fiber content, the overall design overcomes the defects of traditional socks and has antibacterial, breathable and moisture-wicking functions, improving wearing comfort and practicality. Attached Figure Description
[0015] The disclosure of this utility model is illustrated with reference to the accompanying drawings. It should be understood that the drawings are for illustrative purposes only and are not intended to limit the scope of protection of this utility model. In the drawings, the same reference numerals are used to refer to the same parts. Wherein:
[0016] Figure 1 This is a front structural diagram of the present invention;
[0017] Figure 2 This is a schematic diagram of the rear structure of this utility model;
[0018] Figure 3 This is a schematic diagram of the structure of the air-permeable part in this utility model;
[0019] Figure 4 This is a cross-sectional view of the air-permeable groove in this utility model.
[0020] The diagram is labeled as follows: 1. Sock body; 10. Elastic sock cuff; 2. Breathable part; 20. Functional fabric layer; 201. Breathable groove; 202. Protrusion; 21. Elastic tightening element. Detailed Implementation
[0021] It is readily understood that, based on the technical solution of this utility model, those skilled in the art can propose various interchangeable structural methods and implementations without altering the essential spirit of this utility model. Therefore, the following detailed embodiments and accompanying drawings are merely illustrative descriptions of the technical solution of this utility model and should not be considered as the entirety of this utility model or as limitations or restrictions on the technical solution of this utility model.
[0022] Example
[0023] like Figures 1-3As shown, a ginger fiber sock includes a sock body 1, with an elastic sock sleeve 10 at the opening of the sock body 1. The sock body 1 is the main structure of the sock, providing wrapping and support for the foot. The elastic sock sleeve 10 at the opening can fit snugly to the ankle, fixing the sock body 1 in place and preventing it from slipping down during wear, thus ensuring stability.
[0024] Both the instep and sole areas of the sock body 1 are equipped with breathable sections 2, which can effectively promote air circulation in the foot and expel moisture and heat. The breathable section 2 includes a functional fabric layer 20 made of ginger fiber material. The surface of the functional fabric layer 20 is provided with several breathable grooves 201 with a "V" shaped cross-section at equal intervals. The breathable grooves 201 in the instep area extend along the length of the sock body 1, which can conform to the stretching direction of the instep when the foot moves, and maintain good breathability when the foot is active. The breathable grooves 201 in the sole area extend along the width of the sock body 1, which not only ensures the breathability of the sole, but also forms an anti-slip texture, increases the friction between the sole and the sock body 1, improves the stability during walking or exercise, and reduces slippage.
[0025] It should be noted that ginger fiber, as a natural functional fiber, offers numerous advantages for sock manufacturing. It possesses excellent antibacterial and bacteriostatic properties, effectively inhibiting bacterial growth on the feet, reducing odor, and maintaining foot hygiene. Its blood circulation-promoting properties improve blood flow to the feet, relieving foot fatigue. Simultaneously, ginger fiber also has good warmth-retaining properties, providing warmth and protection for the feet in cold environments, enhancing wearing comfort.
[0026] In addition, the functional fabric layer 20 located on the sole of the sock body 1 has several hemispherical protrusions 202, each protrusion 202 being close to the corresponding ventilation groove 201; when walking or exercising, the protrusions 202 can massage the sole of the foot, promote blood circulation in the foot, and at the same time reduce the direct contact between the sole of the foot and the ventilation groove 201, so that the ventilation groove 201 and the inside of the shoe form a breathable gap.
[0027] The functional fabric layer 20 is surrounded by an elastic fastener 21. The elastic fastener 21 is used to provide tension to the periphery of the functional fabric layer 20 so that the functional fabric layer 20 is kept taut and the ventilation groove 201 is kept open. This effectively prevents the functional fabric layer 20 from wrinkling due to the poor elasticity of ginger fibers, and ensures the continuity and stability of the breathability effect.
[0028] When the user's foot moves, the functional fabric layer 20 is tightened by the foot's bending motion (such as walking or running), forcing the opening of the ventilation groove 201 to increase. At this time, the larger opening allows more air to enter the sock. In addition, the increase in the opening of the ventilation groove 201 can create an air-absorbing effect, accelerating the efficiency of moisture and heat removal and quickly regulating the microenvironment of the sock body 1. When the foot relaxes and the elastic band 21 returns to its original position, the functional fabric layer 20 is forced to close the opening of the ventilation groove 201. The closing action can compress the air in the ventilation groove 201, accelerating its expulsion from the shoe cavity. The periodic closing of the ventilation groove 201 forms a dynamic biomimetic breathing structure, enabling dynamic air exchange within the sock body 1 according to the real-time state of the foot, significantly improving comfort and adaptability during wear.
[0029] The technical scope of this utility model is not limited to the content described above. Those skilled in the art can make various modifications and variations to the above embodiments without departing from the technical concept of this utility model, and all such modifications and variations should fall within the protection scope of this utility model.
Claims
1. A type of sock made of ginger fiber, characterized in that, The sock body (1) includes a breathable part (2) provided in both the instep area and the sole area of the sock body (1). The breathable part (2) includes a functional fabric layer (20) made of ginger fiber material. The surface of the functional fabric layer (20) is provided with a plurality of breathable grooves (201) with a cross-section of "V" at equal intervals. An elastic fastening member (21) is provided around the periphery of the functional fabric layer (20). The elastic fastening member (21) is used to provide tensile force to the periphery of the functional fabric layer (20) so that the functional fabric layer (20) is kept in a taut state and the breathable grooves (201) are kept open. When the user moves their feet, the functional fabric layer (20) is tightened by the bending action of the feet to force the opening of the ventilation groove (201) to increase; the functional fabric layer (20) is reset by the relaxation action of the feet and the elastic binding member (21) to force the opening of the ventilation groove (201) to decrease, thus forming a dynamic bionic breathing structure.
2. The ginger fiber socks according to claim 1, characterized in that: The ventilation groove (201) is slit-shaped.
3. The ginger fiber socks according to claim 2, characterized in that: The ventilation groove (201) located in the instep area extends along the length of the sock body (1).
4. The ginger fiber socks according to claim 2, characterized in that: The breathable groove (201) located in the foot area extends along the width direction of the sock body (1) to form an anti-slip pattern.
5. A ginger fiber sock according to claim 1, characterized in that: The functional fabric layer (20) located on the sole of the sock (1) has several hemispherical protrusions (202), each of which is close to the corresponding ventilation groove (201).
6. The ginger fiber socks according to claim 1, characterized in that: The opening of the sock body (1) is provided with an elastic sock sleeve (10).