CN218105067U - Bionic curved surface sole - Google Patents

Abstract

The utility model discloses a bionic curved sole, which relates to the technical field of soles and comprises a sole main body, wherein a plurality of air bags are arranged on the upper surface of the sole main body; the sole is characterized by also comprising ribs, wherein the air bags are connected with one another through the ribs, and the air bags are connected with the edge of the sole through the ribs; the air bags comprise functional air bags and first-stage bearing air bags, and the first-stage bearing air bags are arranged in gaps among the functional air bags on the upper surface of the sole and are used for bearing feet of a human body; the functional air bag comprises a main air bag and an auxiliary air bag, and the main air bag and the auxiliary air bag are used for corresponding to the positions of the reflecting areas of the soles and pressing the reflecting areas. The utility model discloses the elastic action of service function gasbag presses human plantar reflex district, can realize that the plantar reflex district receives better massage effect when the wearing person walks.

Description

Bionic curved surface sole

Technical Field

The utility model relates to a sole technical field, concretely relates to bionical curved surface sole.

Background

The common characteristics of the common sole materials are that the common sole materials are wear-resistant, have good elasticity, are easily suitable for foot shapes, are not easy to deform after being shaped, keep warm, easily absorb moisture and the like, and are matched with a midsole to avoid slipping, easily stop walking and other conditions when feet are changed during walking. Because the personnel of working on duty lack the exercise time usually, and the working time is all sat for a long time, can cause personnel's bodily function to reduce like this, the performance of sub-health appears, consequently need just can reach the sole of massage sole with walking and alleviate personnel's fatigue.

At present to there being the user who needs massage the sole, in prior art's sole, lack the design that can realize accurate massage to human plantar reflex region, current sole product lacks better massage effect promptly.

SUMMERY OF THE UTILITY MODEL

The utility model aims to improve the precision of sole massage, provide a bionical curved surface sole, solve current sole and lack the problem of accurate massage function to plantar reflex region.

The utility model discloses a following technical scheme realizes:

a bionic curved surface sole comprises a sole main body, wherein a plurality of air bags are arranged on the upper surface of the sole main body; the sole is characterized by also comprising ribs, wherein the air bags are connected with each other through the ribs, and the air bags are connected with the edge of the sole through the ribs; the air bags comprise functional air bags and primary bearing air bags, and the primary bearing air bags are arranged at gaps among the functional air bags on the upper surface of the sole and are used for bearing feet of a human body; the functional air bag comprises a main air bag and an auxiliary air bag, and the main air bag and the auxiliary air bag are used for corresponding to the positions of the reflecting areas of the soles and pressing the reflecting areas.

Specifically, the sole main body is made of common wear-resistant elastic materials and has the durability characteristic of a common sole. The air bag is arranged at the bottom in the sole main body and is directly contacted with the sole of a human body. The air bag comprises a functional air bag and a primary load-bearing air bag. The primary air bag corresponds to some main reflecting areas of the foot of the human body, and the secondary air bag corresponds to other reflecting areas near the main reflecting areas. The rib is used for still being used for when function gasbag and one-level bearing gasbag receive pressure after the side inflation to the gasbag fixed effect, the rib can play the effect of unloading to function gasbag and one-level bearing gasbag outside for the application of force in the sole main part is dispersed evenly more, avoids function gasbag and one-level bearing gasbag to receive too much extrusion and leads to damaging. All be equipped with the rib in a plurality of directions of function gasbag and one-level bearing gasbag, the pressure that adaptable wearing person applyed the sole under different walking gesture. The ribs are arranged in multiple directions of the air bag, so that the air bag can adapt to pressure applied to the sole by a wearer in different walking postures. When a wearer walks, under the condition that the soles step on the sole main body, the functional air bags can realize the function of upwards pressing the sole reflecting areas of the human body through the elastic extrusion effect. The first-stage bearing air bag plays a role in supporting the feet of a human body on the sole main body in an elastic manner, and plays a role in damping when a user walks; meanwhile, when a wearer walks, the non-functional air bag part on the sole can be supported, and the split feeling of the functional air bag part and the non-functional air bag part on the sole can be relieved.

Furthermore, the main airbag, the auxiliary airbag and the primary bearing airbag are all hemispherical, the cambered surfaces of the main airbag, the auxiliary airbag and the primary bearing airbag are upward, the interiors of the main airbag, the auxiliary airbag and the primary bearing airbag are all of a cavity structure, and through holes leading to the exterior are formed in the upper end parts of the main airbag, the auxiliary airbag and the primary bearing airbag; the volume of the main airbag is larger than that of the auxiliary airbag. The air bag is of a cavity structure, so that the air bag can elastically contract under pressure, and the air bag has enough expansion or contraction space. The gasbag tip sets up the through-hole for the gasbag can carry out elastic shrinkage through stepping on the pressure comparatively easily, avoids the wearing person to carry out the volume shrinkage because the gasbag is difficult to through pressure when the walking, leads to the gasbag to form to press against the uncomfortable of foot to the wearing person and feels.

Further, the height of the functional air bag on the upper surface of the sole is higher than that of the primary load-bearing air bag. Because the height of the functional air bag is higher, when the bottom surfaces of the air bags on the soles are in the same plane, the fall of the functional air bag is higher than that of the first-stage bearing air bag. Because the functional air bag is higher in height, the functional air bag has a relatively continuous extrusion effect on the reflecting area. The drop does the air bag carries out the difference in height around elastic deformation, and the drop of function gasbag will be greater than one-level bearing air bag, makes the function gasbag has sufficient elastic deformation space, therefore further makes the wearer step on when pressing the sole, and the function gasbag can possess sufficient elasticity and press the reflecting region for the pressing effect of function gasbag obtains stable guarantee.

Furthermore, an anti-slip layer is arranged at the outer bottom of the sole main body, the anti-slip layer is arranged at the outer bottom of the sole main body, and the anti-slip layer comprises a front anti-slip area, a middle anti-slip area and a rear anti-slip area which are respectively arranged at the toe part, the middle part and the heel part of the sole main body; an upward sunken gap is reserved between the middle anti-slip area and the rear anti-slip area.

Further, the sole main body further comprises a non-slip mat, and the non-slip mat is arranged at a gap between the middle non-slip area and the rear non-slip area. The anti-slip mat is provided with texture designs with different thicknesses, and is used for enhancing the ground grabbing capacity of the outer bottom of the sole main body on uneven road surfaces and reducing the slip probability.

Furthermore, anti-skid nails are arranged on the front anti-skid area, the middle anti-skid area and the rear anti-skid area; the anti-skidding racks are arranged at the edges of the sole main body on the middle anti-skidding area and the rear anti-skidding area around the anti-skidding nails. Multidirectional antiskid ribbed tile is soft elastic material, can strengthen frictional force by multi-angle ground, can promote when outdoor slippery road surface walking and grab ground ability for reduce in the walking and slide to, safer.

Furthermore, mounting grooves are formed in the side walls of the two sides of the sole main body, and a plurality of secondary load-bearing air bags are arranged in the mounting grooves; the main airbag, the auxiliary airbag, the first-stage bearing airbag and the second-stage bearing airbag are all hemispherical, and the diameters of the plurality of second-stage bearing airbags are sequentially reduced along the side wall edge of the sole main body from the heel part to the toe part. The secondary bearing air bag in the sole main body is used for playing a better elastic supporting role for the whole body, so that the comfort degree of the human body can be improved when the human body walks. Because the bearing in sole middle part is the biggest, establish the interior second grade bearing gasbag size of sole main part into the trend that is crescent toward sole main part middle part in the sole design, be favorable to ensureing the stability of sole main part to human foot supporting role. The secondary bearing air bag extends outwards, so that the volume of the air bag is expanded outwards after being squeezed to release the external force, and the attractive effect of the sole main body can be improved.

Furthermore, a U-shaped groove is formed in the side wall of the heel part in the sole body, and a damping air bag matched with the U-shaped groove is arranged in the U-shaped groove. The shock absorption air bag is arranged at the heel part in the shoe sole main body, so that the foot can be effectively protected, and the good shock absorption effect is achieved while the ground grabbing effect of the heel part is kept.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

1. the elastic function of the functional air bag is used for pressing the plantar reflecting area of the human body, so that the plantar reflecting area of a wearer can be well massaged when walking;

2. the height and the fall of the functional air bag are both higher than those of the first-stage bearing air bag, so that the pressing effect of the functional air bag is stably guaranteed;

3. the anti-slip mat helps to improve the ground-grasping capacity of the sole body and reduce the probability of sliding.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic view of the outer bottom structure of the present invention;

FIG. 2 is a schematic view of the structure of the inner bottom of the present invention;

FIG. 3 is a schematic side view of the present invention;

reference numbers and corresponding part names in the drawings:

11-cerebral balloon, 12-cervical balloon, 13-trapezius balloon, 14-ear balloon, 15-throat balloon, 16-esophageal balloon, 17-cardiac balloon, 18-lung balloon, 19-bronchial balloon, 110-gastric balloon, 111-liver balloon, 112-yongquan point balloon, 113-kidney balloon, 114-duodenum balloon, 115-transverse colon balloon, 116-ascending colon balloon, 117-pancreas balloon, 118-small intestine balloon, 119-gonadal balloon, 2-anterior anti-slip region, 3-medial anti-slip region, 4-posterior anti-slip region, 5-anti-slip pad, 6-shock-absorbing balloon.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Examples

As shown in fig. 1-3, the utility model relates to a bionic curved sole, the upper surface of the sole main body is provided with a plurality of air bags; the sole is characterized by also comprising ribs, wherein the air bags are connected with each other through the ribs, and the air bags are connected with the edge of the sole through the ribs; the air bags comprise functional air bags and first-stage bearing air bags, and the first-stage bearing air bags are arranged in gaps among the functional air bags on the upper surface of the sole and are used for bearing feet of a human body; the functional air bag comprises a main air bag and an auxiliary air bag, and the main air bag and the auxiliary air bag are used for corresponding to the positions of the reflecting areas of the soles and pressing the reflecting areas.

When the sole is used, the air bag is arranged at the bottom in the sole main body and is in direct contact with the sole of a human body. The air bag comprises a functional air bag and a primary load-bearing air bag. When the wearer walks, under the state that the sole body was stepped on and is pressed to the sole, the function gasbag can produce elastic deformation under the effect with the help of elastic extrusion, carries out the reaction force reaction that deformation recovery produced after elastic deformation on the sole, realizes carrying out the function that upwards presses to human sole reflecting region. The primary air bags correspond to some of the primary reflection areas on the human foot, and the secondary air bags correspond to other reflection areas near the primary reflection areas. The rib is used for still when function gasbag and one-level bearing gasbag receive the side inflation after pressure to the fixed effect of gasbag connection, and the rib can play the effect of unloading to function gasbag and one-level bearing gasbag outside for the application of force in the sole main part is dispersed evenly more, avoids function gasbag and one-level bearing gasbag to receive too much extrusion and leads to the damage. The functional air bag and the first-stage bearing air bag are provided with ribs in multiple directions, so that the functional air bag can adapt to the pressure applied to the sole by a wearer in different walking postures. In the walking process of a wearer, the primary bearing air bag supports the sole in the sole main body, plays a role in supporting the foot of the human body by elasticity, and plays a role in shock absorption during walking. On the other hand, when the wearer walks, the first-stage bearing air bag can support the part of the non-functional air bag on the sole of the foot, and the split feeling of the part of the functional air bag and the part of the non-functional air bag on the sole of the foot can be relieved.

Further, as a further limitation of the airbag, as shown in fig. 2, the main airbag, the sub-airbag and the primary bearing airbag are all hemispherical, have upward arc surfaces, are all hollow structures inside, and have through holes leading to the outside at the upper end; the volume of the main airbag is larger than that of the auxiliary airbag. The air bag is of a cavity structure, so that the air bag can elastically contract under pressure, and the air bag has enough expansion or contraction space. The gasbag tip sets up the through-hole for the gasbag can carry out elastic shrinkage through stepping on the pressure comparatively easily, avoids the wearing person to carry out the volume shrinkage because the gasbag is difficult to through pressure when the walking, leads to the gasbag to form to press against the uncomfortable of foot to the wearing person and feels.

Further, in the specific implementation, according to the distribution of the reflection areas of the sole, the position of the functional air bag and the reflection areas of the sole of the human body can be set in a corresponding relationship, as shown in fig. 2, according to public knowledge, some of the main reflection areas of the sole include the brain, the neck, the ears, the trapezius, the throat, the esophagus, the heart, the lung, the bronchus, the liver, the kidney, the stomach, the yongquan point, the pancreas, the duodenum, the transverse colon, the ascending colon, the small intestine and the gonads. According to the position of the reflecting region on the sole, as shown by the reference numerals in fig. 2, the functional airbags corresponding to the position of the upper surface of the sole body may be sequentially set to a brain airbag 11, a neck airbag 12, an ear airbag 14, an orthorhombic muscle airbag 13, a throat airbag 15, an esophagus airbag 16, a heart airbag 17, a lung airbag 18, a bronchus airbag 19, a liver airbag 111, a kidney airbag 113, a stomach airbag 110, a yongquan airbag 112, a pancreas airbag 117, a duodenum airbag 114, a transverse colon airbag 115, a ascending colon airbag 116, a small intestine airbag 118, and a gonad airbag 119. According to the size of the functional air bag in fig. 2, in the walking process of the wearer, the functional air bag on the sole body in this embodiment has a pressing effect that is emphasized on the nape, esophagus, heart, lung, liver, yongquan point, transverse kidney colon, small intestine and gonad of the human body in the plantar reflex region, and other parts have an auxiliary pressing effect on the basis of the pressing of the above parts. In the specific application, because the division form and the division scope in human plantar reflex district have certain discrepancy on traditional chinese medical science's specific details, consequently this embodiment only regards as the utility model provides an implementation mode divides the functional gasbag of sole main part into one of them reflection district division form.

In the above embodiment, the functional airbag and the first-stage load-bearing airbag may have the same height or the same deformation degree on the upper surface of the sole body, so that the pressing effect of the functional airbag on the sole is poor under the auxiliary supporting effect of the first-stage load-bearing airbag. Because the height of the functional air bag is higher, the upper surface of the sole is used as a reference surface, so that the bottom surface of the air bag is positioned on the same plane, and the height difference between the main air bag and the auxiliary air bag before and after deformation, namely the fall of the main air bag and the auxiliary air bag, is higher than the fall of the first-level bearing air bag, so that the functional air bag has enough elastic deformation space, the functional air bag can have enough elasticity to press a reflection area when a wearer steps on the sole, and the pressing effect of the functional air bag is stably guaranteed. In a specific application, preferably, the height difference of the functional air bag is 1.5 mm higher than that of the first-stage load-bearing air bag, so that the functional air bag can better approach to the acupuncture point to achieve the purpose of effective massage. The wearer can be in a comfortable wearing state, and the pressing effect of the functional air bag is improved.

Further, regarding the anti-slip treatment of the bottom of the sole body, as a possible implementation manner, as shown in fig. 1, an anti-slip layer is arranged at the outer bottom of the sole body, and the anti-slip layer includes a front anti-slip region 2, a middle anti-slip region 3 and a rear anti-slip region 4, which are respectively arranged at the toe portion, the middle portion and the heel portion of the sole body; an upwardly concave gap 51 is reserved between the middle anti-slip area 3 and the rear anti-slip area 4. Each part of the anti-skid layer realizes the anti-skid effect by improving the friction force with the ground.

Further, as a possible embodiment, as shown in fig. 1 and 3, the sole body further comprises a non-slip mat 5, the non-slip mat 5 being arranged at the gap 51 between the central non-slip region 3 and the rear non-slip region 4. The anti-slip mat is provided with texture designs with different thicknesses, and is used for enhancing the ground grabbing capacity of the outer bottom of the sole main body on uneven road surfaces and reducing the slip probability.

In the above embodiments, the friction enhancing means of the anti-slip layer is not limited, and based on this, as a possible implementation, as shown in fig. 1, the front anti-slip region 2, the middle anti-slip region 3 and the rear anti-slip region 4 are all provided with anti-slip nails; the anti-skid racks are arranged at the edges of the sole main body on the middle anti-skid area 3 and the rear anti-skid area 4 around the anti-skid studs. Multidirectional antiskid ribbed tile is soft elastic material, can strengthen frictional force by multi-angle ground, can promote when outdoor slippery road surface walking and grab ground ability for it is safer to walk.

Further, as a possible implementation manner, as shown in fig. 1 and fig. 3, mounting grooves are formed on the side walls of both sides of the sole main body, and a plurality of secondary load-bearing air bags 6 are arranged in the mounting grooves; the main airbag, the auxiliary airbag, the first-stage bearing airbag and the second-stage bearing airbag 6 are hemispherical, and the diameters of the second-stage bearing airbags 6 are sequentially reduced along the side wall edge of the sole main body from the heel part to the toe part. The secondary bearing air bag 6 in the sole main body is used for playing a better elastic supporting role for the whole human body, so that the comfort level of the human body can be improved when the human body walks. Because the load-bearing of the middle part of the sole is the largest, the size of the second-stage load-bearing air bag 6 in the sole main body is set to be gradually increased towards the middle part of the sole main body in the sole design, thereby being beneficial to ensuring the stability of the sole main body to the supporting effect of the human foot. The secondary bearing air bag 6 extends outwards, so that the volume of the air bag is expanded outwards after the air bag is extruded to release the external force, and the attractive effect of the sole main body can be improved.

Further, as a possible implementation manner, as shown in fig. 1 and 3, a U-shaped groove is formed on the side wall of the heel part in the sole body, and a shock-absorbing air bag 61 matched with the U-shaped groove is arranged in the U-shaped groove. The shock absorption air bag 61 is arranged at the heel part in the sole main body, can effectively protect the foot, and has good shock absorption effect while keeping the ground grabbing effect of the heel part.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. A bionic curved sole comprises a sole main body and is characterized in that a plurality of air bags are arranged on the upper surface of the sole main body; the sole is characterized by also comprising ribs, wherein the air bags are connected with one another through the ribs, and the air bags are connected with the edge of the sole through the ribs; the air bags comprise functional air bags and primary bearing air bags, and the primary bearing air bags are arranged at gaps among the functional air bags on the upper surface of the sole and are used for bearing feet of a human body; the functional air bag comprises a main air bag and an auxiliary air bag, and the main air bag and the auxiliary air bag are used for corresponding to the positions of the reflecting areas of the soles and pressing the reflecting areas.

2. The bionic curved sole as claimed in claim 1, wherein the primary air bag, the secondary air bag and the primary load-bearing air bag are all hemispherical, the cambered surfaces of the primary air bag, the secondary air bag and the primary load-bearing air bag are upward, the interiors of the primary air bag and the secondary air bag are all of a cavity structure, and the upper end parts of the primary air bag and the secondary air bag are all provided with through holes leading to the exterior; the volume of the main airbag is larger than that of the auxiliary airbag.

3. The bionic curved sole according to claim 1, wherein the heights of the main airbag and the auxiliary airbag on the upper surface of the sole are higher than those of the first-stage load-bearing airbag.

4. The bionic curved sole according to claim 1, wherein an anti-slip layer is arranged at the outer bottom of the sole main body, and comprises a front anti-slip area (2), a middle anti-slip area (3) and a rear anti-slip area (4) which are respectively arranged at the toe part, the middle part and the heel part of the sole main body; an upward concave gap (51) is reserved between the middle anti-slip area (3) and the rear anti-slip area (4).

5. The bionic curved sole according to claim 4, wherein the sole body further comprises a non-slip pad (5), and the non-slip pad (5) is arranged at a gap (51) between the middle non-slip region (3) and the rear non-slip region (4).

6. The bionic curved sole according to claim 4, wherein the front anti-skid region (2), the middle anti-skid region (3) and the rear anti-skid region (4) are provided with anti-skid nails; anti-skidding racks are arranged at the edges of the sole main body on the middle anti-skidding area (3) and the rear anti-skidding area (4) around the anti-skidding nails.

7. The bionic curved sole according to any one of claims 1 to 6, wherein mounting grooves are formed in the side walls of two sides of the sole main body, and a plurality of secondary bearing air bags (6) are arranged in the mounting grooves; the main airbag, the auxiliary airbag, the first-stage bearing airbag and the second-stage bearing airbag (6) are hemispherical, and the diameters of the second-stage bearing airbags (6) are sequentially reduced along the side wall edge of the sole main body from the heel part to the toe part.

8. The bionic curved sole as claimed in any one of claims 1 to 6, wherein a U-shaped groove is formed in the side wall of the heel part in the sole body, and a damping air bag (61) matched with the U-shaped groove is arranged in the U-shaped groove.

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