CN118121011A - Light shoes - Google Patents

Abstract

The invention discloses a pair of light shoes, which comprises soles, vamps and airbag devices, wherein the vamps are connected onto the soles; the vamp comprises a vamp body and a supporting part, wherein the vamp body comprises an elastic area and a ventilation area, the elastic area is positioned at the connecting part of the front instep and the toes, the ventilation area is the rest part of the vamp body, and the supporting part is obliquely arranged at the connecting part of the vamp body and the sole and forms an included angle with the vamp body close to the inner side of the instep; the air bag device is provided with a first air bag, a second air bag and an air duct, wherein the first air bag is arranged in the elastic area, the number of the second air bags is two, and the two second air bags are respectively arranged at concave positions on two sides of an ankle of the ventilation area; the air duct is connected with the first air bag and the two second air bags and is arranged at the joint of the edge of the vamp body and the sole in a surrounding way, and the air duct is arranged between the supporting part and the vamp body. The invention provides a pair of light shoes, which can effectively improve stiffness, prevent the shoe heel from sliding off and improve the wearing experience of users while keeping ventilation.

Description

Light shoes

Technical Field

The invention relates to the technical field of shoes, in particular to a pair of light shoes.

Background

The original function of the shoe is mainly to protect the feet of people from being damaged during walking. However, with the transition of the age, the demands of people for shoes are gradually enriched, and the shoes are not only satisfied with basic protection functions. At present, shoes are required to have various characteristics, such as good air permeability, stiff and smooth appearance, heat preservation performance, waterproof function and the like. To meet consumer demand for breathability, modern footwear designs tend to reduce the use of cloth to ensure that the shoe is lightweight and breathable. However, this design also presents some problems. Because the vamp body is light and thin in cloth, most of light and breathable shoes are poor in stiffness. Because the vamp body is light and thin in weight, many lightweight and breathable shoes have difficulty in maintaining stiffness. When the shoes are worn, the shoe counter is easy to slide off, which not only affects the comfort of the wearing, but also can cause inconvenience for walking. When not wearing, the vamp body is easy to collapse on the sole due to lack of enough supporting force, which not only affects the whole appearance aesthetic feeling of the shoes, but also the consumer also needs to manually pull up the vamp body when wearing next time, which clearly increases the inconvenience of use.

Disclosure of Invention

The invention aims to overcome the defects or problems in the prior art and provide a pair of light shoes, wherein the shoes can effectively improve stiffness, prevent shoe uppers from sliding off and improve wearing experience of users while keeping ventilation.

In order to achieve the above objective, the following technical solutions are adopted in the embodiments of the present invention, but not limited to the following solutions:

The first technical proposal relates to a pair of light shoes, which comprises soles, vamps connected on the soles and air bag devices; the vamp comprises a vamp body and a supporting part, wherein the vamp body comprises an elastic area and a ventilation area, the elastic area is positioned at the connecting part of the front instep and the toes, the ventilation area is the rest part of the vamp body, and the supporting part is obliquely arranged at the connecting part of the vamp body and the sole and forms an included angle with the vamp body close to the inner side of the instep; the air bag device is provided with a first air bag, a second air bag and an air duct, wherein the first air bag is arranged in the elastic area, the number of the second air bags is two, and the two second air bags are respectively arranged at concave positions on two sides of an ankle of the ventilation area; the air duct is connected with the first air bag and the two second air bags and is arranged at the joint of the edge of the vamp body and the sole in a surrounding mode, and the air duct is arranged between the supporting part and the vamp body.

The second technical scheme is based on the first technical scheme, wherein a diaphragm is arranged at the joint of the first air bag and the air duct.

The third technical scheme is based on the first technical scheme, wherein the ankle support further comprises a silica gel soft block, and the silica gel soft block is arranged at the second air bag and is close to the concave parts on two sides of the ankle.

The fourth technical scheme is based on the first technical scheme, wherein the supporting part is made of 3D mesh cloth, and materials wrapping the first air bag and the second air bag are made of 3D mesh cloth.

The fifth technical scheme is based on any one of the first to fourth technical schemes, wherein the vamp body is provided with a base layer, a waterproof layer and a wear-resistant supporting layer which are sequentially connected, the base layer is close to the instep, and the wear-resistant supporting layer is the outermost side.

The sixth technical scheme is based on the fifth technical scheme, wherein the wear-resistant supporting layer is formed by arranging a plurality of TPU wires in a staggered manner in a net-shaped form and connecting the TPU wires through a hot pressing process.

The seventh technical scheme is based on the fifth technical scheme, wherein the base layer is provided with a first base layer located in the ventilation area, and the first base layer is made of cool jade fibers.

The eighth technical scheme is based on the fifth technical scheme, wherein the base layer is provided with a second base layer located in the elastic area, and the second base layer is made of 3D mesh cloth.

A ninth technical means is based on the seventh technical means, wherein the ventilation area is provided with a plurality of ventilation holes.

A tenth technical means is based on the fifth technical means, wherein the waterproof layer is a TPU microporous film.

From the above description of various embodiments of the invention, it is apparent that, relative to the prior art, various embodiments of the invention have the following

The beneficial effects are that:

In the first technical solution and related embodiments, the vamp body includes an elastic area and a ventilation area, and the elastic area is located at a position where the front instep and the toes are connected, which is easy to collapse, so that the shoe still has excellent stiffness while keeping lightweight. This makes shoes can maintain stable shape in the wearing process, is difficult for taking place the deformation. Meanwhile, the first air bags are arranged in the elastic area, the second air bags are arranged in the concave parts on the two sides of the ankle of the ventilation area, so that the stability of the shoe is obviously enhanced, and the shoe heel is effectively prevented from sliding off. The first balloon and the second balloon have been pre-filled with an appropriate amount of gas at the time of manufacture. When a user walks, the forefoot bends to naturally squeeze the first air bag, and at the moment, air smoothly flows from the first air bag to the second air bag so as to expand the second air bag. The design utilizes the natural motion of human body movement, so that the second air bag can be closely attached to the ankle of a user, and the gap between the heel and the ankle is filled, thereby effectively preventing the slipping phenomenon. In addition, the supporting part that vamp body and sole junction slope set up not only forms the contained angle with the vamp body and is close to the instep inboard, plays the supporting role to the vamp body, has still strengthened the structural stability of vamp body. This makes shoes more firm when wearing, non-deformable. The inclined design of the supporting part not only enhances the stability, but also is more fit with the transition curve from the sole to the instep of the user, so that the sufficient support is ensured, meanwhile, discomfort can not be brought to the foot, and the wearing comfort is ensured. The air duct is installed between the supporting part and the vamp body, ensures smooth circulation of air, and also ensures that the air duct can not cause any discomfort to walking of a user when supporting the supporting part.

In a second aspect and related embodiments, a septum is provided at the junction of the first balloon and the airway, the septum being present primarily to regulate and control the flow of gas to the second balloon. When the first air bag is bent and pressed by the forefoot during walking, if the diaphragm is not provided, air can rapidly and largely flow to the second air bag, so that the second air bag is excessively inflated, and the wearing comfort and stability are adversely affected. With the diaphragm, the flow of the gas is more stable and uniform, and the problem of uneven flow is avoided.

In the third technical scheme and related embodiments, stiffness and supporting force at the heel are enhanced by adding the silica gel soft block at the second air bag. The softness and friction of silica gel soft block help stabilizing the laminating degree of heel and ankle, prevent the slippage, bring more stable, comfortable wearing experience for the user. Simultaneously, the synergistic effect of silica gel soft mass and second gasbag has further promoted heel anti-drop effect and overall stability, makes shoes laminate the foot more when walking or motion, reduces tired sense.

In the fourth technical scheme and related embodiments, the 3D mesh cloth is adopted for the supporting part and the material for wrapping the air bag, so that the comfortable shoe can maintain stable structure and provide good support, and meanwhile, the ventilation property and the comfort of the vamp body are improved, and comfortable and dry wearing feeling is brought to users. The supporting part is made of 3D mesh cloth material, so that not only is good supporting effect provided, but also the air permeability and the comfort of the vamp are ensured; the material of parcel first gasbag and second gasbag has also adopted 3D eyelet fabric, and this action has guaranteed the gas permeability and the cushioning effect of gasbag, has further promoted the travelling comfort and the functional of shoes.

In a fifth technical solution and related embodiments, the vamp body is provided with a multi-layer structure, namely a base layer, a waterproof layer and a wear-resistant support layer, which are sequentially connected, so that the function of the vamp body is fully optimized. The arrangement of the base layer enables the vamp body to be close to the instep, and comfortable wearing experience is provided; the waterproof layer effectively prevents the penetration of moisture and ensures the drying and cleaning of the inside of the shoe; and the wear-resistant supporting layer is used as the outermost layer, so that the wear resistance of the vamp body is enhanced, the service life of the shoe is prolonged, and an additional supporting effect is provided, so that the shoe is more stable in the wearing process.

In the sixth technical scheme and related embodiments, the wear-resistant supporting layer is formed by mutually staggered TPU wire meshes and connecting the TPU wire meshes through hot pressing, so that the wear resistance of the vamp body is further enhanced, and good air permeability and supporting property are ensured. The TPU wire has fine wearability and extensive soft or hard adjustment interval, when wrap up and connect on the vamp body with the netted form, TPU wire can show the wearability and the support nature of reinforcing vamp body, hardly influences the gas permeability of vamp body simultaneously.

In the seventh technical scheme and related embodiments, the first base layer located in the ventilation area is made of cool jade fiber, so that cool touch feeling can be brought to the feet of a user, ventilation performance of the vamp body is enhanced, and the vamp has excellent heat dissipation and antibacterial functions, so that wearing comfort is improved. The cool jade fiber is a new generation of cooling and radiating fiber with obvious natural cooling effect, and the unique cross-section structure of the cool jade fiber enables the fiber to absorb moisture and sweat rapidly, so that the dryness and ventilation of the skin are effectively maintained. By adding special ore elements into the fiber, the ice jade fiber can effectively shield heat such as infrared rays, ultraviolet rays and the like, so that the body is far away from infrared irradiation, and further a lasting cool feeling is brought. In addition, the fiber is blended with nano-scale composite powder, and silver ion antibacterial technology is utilized, so that negative ions can be released, free radicals can be removed, aging is delayed, the body can be relaxed, and blood microcirculation can be improved. The natural jade adopted by the ice jade fiber has a special heat conduction structure and high water content, so that the fiber can instantly generate cool feeling when contacting skin, and rapidly conduct body heat into air, thereby keeping the skin in a cool and dry state for a long time.

In the eighth technical solution and related embodiments, the second base layer located in the elastic area is also 3D mesh cloth, which has excellent elasticity and breathability, and can closely fit the outline of the foot, especially providing additional support and comfort to the vamp body at the toe and forefoot. The design not only enhances the stability of the vamp body, but also avoids uncomfortable feeling caused by too narrow front end of the shoe, so that the wearing is more comfortable and free.

In the ninth technical solution and related embodiments, the ventilation area is provided with a plurality of ventilation holes, which further enhances the ventilation of the vamp body.

In a tenth technical solution and related embodiments, the waterproof layer is a TPU microporous film, which is a thermoplastic polyurethane material, and has a microporous structure. The microporous structure can make air and water vapor pass through, and can prevent liquid water from passing through, so that the shoes have good air permeability and waterproof property, can effectively prevent external moisture and humidity from invading the shoes, keep the shoes dry and clean, and can also keep sufficient ventilation and prevent feet from being moist and stuffy.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments below are briefly introduced, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an embodiment upper body;

FIG. 2 is a schematic view of an embodiment upper body and support;

FIG. 3 is a schematic diagram of an example TPU line;

Fig. 4 is a schematic view of an example shoe.

The main reference numerals illustrate:

A sole 1; an upper body 2; a base layer 3; a waterproof layer 4 and a wear-resistant supporting layer 5; an elastic region 6; a ventilation zone 7; a first balloon 8; a second balloon 9; an air duct 10; a TPU thread 11; a support 12.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are preferred embodiments of the invention and should not be taken as excluding other embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without creative efforts, are within the protection scope of the present invention.

In the claims, specification and drawings hereof, unless explicitly defined otherwise, the terms "first," "second," or "third," etc. are used for distinguishing between different objects and not for describing a particular sequential order.

In the claims, specification and drawings of the present invention, unless explicitly defined otherwise, references to orientation or positional relationship such as the terms "center", "lateral", "longitudinal", "horizontal", "vertical", "top", "bottom", "inner", "outer", "upper", "lower", "front", "rear", "left", "right", "clockwise", "counterclockwise", etc. are based on the orientation and positional relationship shown in the drawings and are merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or element referred to must have a particular orientation or be constructed and operated in a particular orientation, nor should it be construed as limiting the particular scope of the invention.

In the claims, specification and drawings of the present invention, unless explicitly defined otherwise, the term "fixedly connected" or "fixedly connected" should be construed broadly, i.e. any connection between them without a displacement relationship or a relative rotation relationship, that is to say includes non-detachably fixedly connected, integrally connected and fixedly connected by other means or elements.

In the claims, specification and drawings of the present invention, the terms "comprising," having, "and variations thereof as used herein, are intended to be" including but not limited to.

Referring to fig. 1 to 4, as shown in fig. 1 and 4, a light shoe includes a sole 1, an upper attached to the sole 1, an airbag device, and a silica gel block.

The sole 1 is then positioned under the upper in direct contact with the ground. The sole 1 generally comprises an outsole, a midsole, a heel, and the like. The outsole mainly plays a role in skid resistance, wear resistance and foot protection, and is required to have good physical and chemical properties. The midsole mainly plays a role of buffering and supporting, and reduces the impact on feet. The heel provides additional support and stability, particularly when walking or running.

The upper comprises an upper body 2 and a support 12. The vamp body 2, as shown in fig. 1, includes an elastic area 6 and a ventilation area 7, the elastic area 6 is located at the connection part of the front instep and the toes, the ventilation area 7 is the rest part of the vamp body 2, and the ventilation area 7 is provided with a plurality of ventilation holes (not labeled in the figure). As shown in fig. 2, the vamp body 2 is provided with a base layer 3, a waterproof layer 4 and a wear-resistant supporting layer 5 which are sequentially connected, the base layer 3 is close to the instep, the wear-resistant supporting layer 5 is the outermost side, and the waterproof layer 4 is positioned between the base layer 3 and the wear-resistant supporting layer 5.

The base layer 3 is provided with a first base layer and a second base layer, wherein the first base layer is positioned in an air permeable area 7, ice jade fibers are adopted, and the second base layer is positioned in an elastic area 6, and 3D mesh cloth is adopted. The waterproof layer 4 is a TPU microporous film. The TPU microporous film is a thermoplastic polyurethane material and has a microporous structure. The microporous structure can make air and water vapor pass through, and can prevent liquid water from passing through, so that the shoes have good air permeability and waterproof property, can effectively prevent external moisture and humidity from invading the shoes, keep the shoes dry and clean, and can also keep sufficient ventilation and prevent feet from being moist and stuffy. As shown in fig. 3, the wear-resistant support layer 5 is formed by interlacing a plurality of TPU threads 11 in a net form and connecting them by a hot pressing process. The wear-resistant supporting layer 5 is formed by connecting TPU wires 11 in a meshed and staggered mode through hot pressing, so that the wear resistance of the vamp body 2 is further enhanced, and good air permeability and supporting performance are ensured. The TPU thread 11 has excellent wear resistance and a wide soft and hard adjustment interval, and when being wrapped in a net form and connected to the vamp body 2, the TPU thread 11 can remarkably enhance the wear resistance and the support of the vamp body 2 while hardly affecting the air permeability of the vamp body 2.

The supporting part 12, as shown in fig. 2, is obliquely arranged at the joint of the vamp body 2 and the sole 1 and forms an included angle with the vamp body 2 near the inner side of the instep. The support 12 is a 3D mesh cloth. Specifically, the support 12 is connected to the sole 1 on one side and to the vamp body 2 on the other side, and the support 12 supports the vamp body 2.

An airbag device is provided with a first airbag 8, a second airbag 9, an airway 10, and a diaphragm. The first air bags 8 are arranged in the elastic area 6, the number of the second air bags 9 is two, and the two second air bags 9 are respectively arranged at the concave parts at the two sides of the ankle of the ventilation area 7; the air duct 10 is connected with the first air bag 8 and the two second air bags 9 and is arranged around the joint of the edge of the vamp body 2 and the sole 1, and the air duct 10 is arranged between the supporting part 12 and the vamp body 2. The materials for wrapping the first air bag 8 and the second air bag 9 are 3D mesh cloth.

The junction of the first balloon 8 and the airway 10 is provided with a diaphragm (not shown), which is mainly present to regulate and control the flow of gas to the second balloon 9. When the first air bag 8 is bent and pressed by the forefoot during walking, if there is no diaphragm, air may rapidly and largely flow to the second air bag 9, causing the second air bag 9 to excessively expand, adversely affecting the comfort and stability of wearing. With the diaphragm, the flow of the gas is more stable and uniform, and the problem of uneven flow is avoided.

A soft silica gel block (not shown) is arranged at the second air bag 9 and is near the concave parts at the two sides of the ankle. By adding the silica gel soft block at the second air bag 9, the stiffness and the supporting force at the heel are enhanced. The softness and friction of silica gel soft block help stabilizing the laminating degree of heel and ankle, prevent the slippage, bring more stable, comfortable wearing experience for the user. Simultaneously, the synergistic effect of silica gel soft mass and second gasbag 9 has further promoted heel anti-drop effect and overall stability, makes shoes laminate the foot more when walking or motion, reduces tired sense.

In this embodiment, the vamp body 2 realizes the comprehensive optimization of the functions of the vamp body 2 by adopting a multi-layer structure, namely, the base layer 3, the waterproof layer 4 and the wear-resistant support layer 5 which are sequentially connected. The arrangement of the base layer 3 enables the vamp body 2 to be close to the instep, and provides comfortable wearing experience; the waterproof layer 4 effectively prevents the penetration of moisture and ensures the drying and cleaning of the inside of the shoe; and the wear-resistant supporting layer 5 is used as the outermost layer, so that the wear resistance of the vamp body 2 is enhanced, the service life of the shoe is prolonged, and an additional supporting effect is provided, so that the shoe is more stable in the wearing process.

In this embodiment, through the 3D mesh cloth is all adopted to the material of supporting part 12, the second basic unit that is located elasticity district 6 and parcel gasbag, and this light shoes is keeping stable in structure, providing good support, has promoted the gas permeability and the travelling comfort of vamp body 2, brings comfortable dry and comfortable wearing and feeling for the user. The supporting part 12 is made of 3D mesh cloth material, so that not only is good supporting effect provided, but also the air permeability and the comfort of the vamp body 2 are ensured; the base layer 3 in the elastic region 6 is also 3D mesh cloth, which has excellent elasticity and air permeability, can closely fit the outline of the foot, and particularly provides additional support and comfort to the vamp body 2 at the toe and forefoot. The design not only enhances the stability of the vamp body 2, but also avoids uncomfortable feeling caused by too narrow front end of the shoe, so that the wearing is more comfortable and free; the material of parcel first gasbag 8 and second gasbag 9 has also adopted 3D eyelet fabric, and this measure has guaranteed the gas permeability and the bradyseism effect of gasbag, has further promoted the travelling comfort and the functionality of shoes.

In this embodiment, the base layer 3 located in the ventilation area 7 is made of cool jade fiber, so that cool touch can be brought to the foot of a user, ventilation performance of the vamp body 2 is enhanced, and excellent heat dissipation and antibacterial functions are achieved, so that wearing comfort is improved. The ventilation area 7 is provided with a plurality of ventilation holes, so that the ventilation property of the vamp body 2 is further enhanced. The cool jade fiber is a new generation of cooling and radiating fiber with obvious natural cooling effect, and the unique cross-section structure of the cool jade fiber enables the fiber to absorb moisture and sweat rapidly, so that the dryness and ventilation of the skin are effectively maintained. By adding special ore elements into the fiber, the ice jade fiber can effectively shield heat such as infrared rays, ultraviolet rays and the like, so that the body is far away from infrared irradiation, and further a lasting cool feeling is brought. In addition, the fiber is blended with nano-scale composite powder, and silver ion antibacterial technology is utilized, so that negative ions can be released, free radicals can be removed, aging is delayed, the body can be relaxed, and blood microcirculation can be improved. The natural jade adopted by the ice jade fiber has a special heat conduction structure and high water content, so that the fiber can instantly generate cool feeling when contacting skin, and rapidly conduct body heat into air, thereby keeping the skin in a cool and dry state for a long time.

In this embodiment, the vamp body 2 includes the elastic area 6 and the ventilation area 7, and the elastic area 6 is located the easy position of collapsing of front instep and toe junction, has guaranteed that shoes still possess outstanding stiffness while keeping light. This makes shoes can maintain stable shape in the wearing process, is difficult for taking place the deformation. Meanwhile, the stability of the shoe is obviously enhanced by arranging the first air bag 8 in the elastic area 6 and arranging the second air bag 9 in the concave parts on the two sides of the ankle of the ventilation area 7, and the slip of the shoe heel is effectively prevented. The first balloon 8 and the second balloon 9 have been previously injected with an appropriate amount of gas at the time of manufacture. When the user walks, the forefoot bends to naturally squeeze the first bladder 8, and gas smoothly flows from the first bladder 8 to the second bladder 9 to expand. The design utilizes the natural motion of human body movement, so that the second air bag 9 can be closely attached to the ankle of a user, and the gap between the heel and the ankle is filled, thereby effectively preventing the slipping phenomenon. In addition, the supporting part 12 that vamp body 2 and sole 1 junction slope set up not only forms the contained angle with vamp body 2 and is close to the instep inboard, plays the supporting role to vamp body 2, has still strengthened vamp body 2's structural stability. This makes shoes more firm when wearing, non-deformable. The oblique design of the support portion 12 enhances stability and is more fit with the transition curve from the sole to the instep of the user, so that sufficient support is ensured, discomfort is not brought to the foot, and wearing comfort is ensured. The air duct 10 is installed between the support 12 and the vamp body 2, ensuring smooth circulation of air, and also enabling the air duct 10 to support the support 12 without causing any discomfort to the user's walking.

The foregoing description of the embodiments and description is presented to illustrate the scope of the invention, but is not to be construed as limiting the scope of the invention. Modifications, equivalents, and other improvements to the embodiments of the invention or portions of the features disclosed herein, as may occur to persons skilled in the art upon use of the invention or the teachings of the embodiments, are intended to be included within the scope of the invention, as may be desired by persons skilled in the art from a logical analysis, reasoning, or limited testing, in combination with the common general knowledge and/or knowledge of the prior art.

Claims (10)

1. A pair of light shoes, which is characterized by comprising a sole (1), a vamp connected to the sole (1) and an air bag device;

The vamp comprises a vamp body (2) and a supporting part (12), wherein the vamp body (2) comprises an elastic area (6) and a ventilation area (7), the elastic area (6) is positioned at the connecting part of the front instep and the toes, the ventilation area (7) is the rest part of the vamp body (2), and the supporting part (12) is obliquely arranged at the connecting part of the vamp body (2) and the sole (1) and forms an included angle with the vamp body (2) close to the inner side of the instep;

The air bag device is provided with a first air bag (8), a second air bag (9) and an air duct (10), wherein the first air bag (8) is arranged in the elastic area (6), the number of the second air bags (9) is two, and the two second air bags (9) are respectively arranged at concave parts on two sides of an ankle of the ventilation area (7); the air duct (10) is connected with the first air bag (8) and the two second air bags (9) and is arranged at the joint of the edge of the vamp body (2) and the sole (1) in a surrounding mode, and the air duct (10) is arranged between the supporting part (12) and the vamp body (2).

2. A light shoe according to claim 1, characterized in that the connection of the first bladder (8) and the airway tube (10) is provided with a membrane.

3. A pair of light shoes as claimed in claim 1, further comprising a soft silica gel block disposed at the second air bag (9) and near the recesses on both sides of the ankle.

4. A pair of light shoes according to claim 1, characterized in that the supporting part (12) is made of 3D mesh cloth, and the materials wrapping the first air bag (8) and the second air bag (9) are made of 3D mesh cloth.

5. A light shoes as claimed in any one of claims 1 to 4, characterized in that the vamp body (2) is provided with a base layer (3), a waterproof layer (4) and a wear-resistant support layer (5) which are connected in sequence, the base layer (3) being adjacent to the instep, the wear-resistant support layer (5) being outermost.

6. A light shoe according to claim 5, characterized in that the wear-resistant support layer (5) is a plurality of TPU threads (11) placed in a staggered manner in a net-like form and connected by a hot-pressing process.

7. A light shoe according to claim 5, characterized in that the base layer (3) is provided with a first base layer located in the ventilation zone (7), said first base layer being made of cool jade fibres.

8. A light shoe according to claim 5, characterized in that the base layer (3) is provided with a second base layer in the elastic region (6), which second base layer is made of 3D mesh cloth.

9. A light shoe according to claim 7, characterized in that the ventilation zone (7) is provided with ventilation holes.

10. A light shoe according to claim 5, characterized in that the waterproof layer (4) is a TPU microporous membrane.