CN218551511U - Shaped suspension type high-elastic sole - Google Patents

Abstract

The utility model relates to a floated high-elastic sole of design, include the sole body of compriseing preceding palm portion, arch of foot portion and heel, arch of foot portion is provided with the part of kick-backing, and the part of kick-backing includes the rebound piece, and the installation cavity that supplies the installation of rebound piece is seted up to arch of foot portion, and the lateral wall of rebound piece link up and has seted up the through hole. In the application, the rebound block can play a good supporting role on the foot according to human mechanics, the rebound force of the rebound block and the arrangement of the penetrating hole can play a shock absorption and rebound role on the foot in the walking process, the comfort level of the arch part of the sole is improved in the long-time walking process, the health of the foot is protected, and a certain role is played in preventing the flat foot; meanwhile, the penetrating holes also enable the arch parts to form a hollowed suspension effect, and the appearance is higher.

Description

Shaped suspension type high-elastic sole

Technical Field

The application relates to the technical field of soles, in particular to a sizing suspension type high-elastic sole.

Background

The shoes with good arch support and the prevention of standing for too long time have certain significance for preventing flat foot. For example, a Chinese patent with an authorized publication number of CN203590965U discloses a novel sizing sole

In view of the above-mentioned related technologies, the applicant believes that the shaping block disposed at the arch of the sole is hard, when the sole contacts the ground, resilience force is hard to generate between the hard shaping block and the ground, and after long-time walking, discomfort of the sole of the human body can be caused, which is not good for foot health.

SUMMERY OF THE UTILITY MODEL

In order to improve the comfort level of sole arch portion, this application provides the floated high-elastic sole of design.

The application provides a floated high-elastic sole of design adopts following technical scheme:

floated high-elastic sole of design includes the sole body of compriseing preceding palm portion, arch of foot portion and heel, arch of foot portion is provided with the part of kick-backing, the part of kick-backing includes the rebound piece, the installation cavity that supplies the installation of rebound piece is seted up to arch of foot portion, just the lateral wall of rebound piece link up and has seted up the through hole.

By adopting the technical scheme, the rebound block can play a good supporting role on the foot according to human body mechanics, the rebound force of the rebound block and the arrangement of the penetrating hole can play a role in damping and rebounding on the foot in the walking process, the comfort level of the arch part of the sole is improved in the long-time walking process, the health of the foot is protected, and a certain role in preventing the flat foot disease is played; meanwhile, the penetrating holes also enable the arch parts to form a hollowed suspension effect, and the appearance is higher.

Preferably, the rebound component further comprises a front protrusion and a rear protrusion respectively arranged on the opposite end walls of the rebound block, and the opposite end walls of the mounting cavity are respectively provided with a front groove for accommodating the front protrusion and a rear groove for accommodating the rear protrusion.

Through adopting above-mentioned technical scheme, the cooperation of anterior arch and anterior recess, rear portion arch and rear portion recess plays the effect of left and right location to the resilience piece.

Preferably, the resilient block is mounted to the arch portion by a mounting structure.

Preferably, the mounting structure comprises an extension inserting plate fixed on the side wall of the rebound block in an extending manner and an inserting cavity penetrating through the side wall of the arch part, and the extension inserting plate is inserted into the inserting cavity.

By adopting the technical scheme, the extension inserting plate is inserted into the inserting cavity to achieve the front-back positioning effect on the rebound block, and the cooperation of the front protrusion and the front groove as well as the cooperation of the rear protrusion and the rear groove can generate a synergistic effect, so that the stable installation of the rebound block can be realized.

Preferably, the penetrating hole penetrates through the side wall of the extension insert plate.

By adopting the technical scheme, the penetrating hole penetrates through the side wall of the arch part, and the attractiveness of the hollowed-out effect is improved.

Preferably, the mounting structure further comprises a bump fixed at the bottom of the rebound block and a mounting hole opened at the bottom of the arch part and used for accommodating the bump.

Through adopting above-mentioned technical scheme, the location of resilience piece bottom is realized in the cooperation of the lug that is located resilience piece bottom and mounting hole, further assists the installation stability who improves the resilience piece.

Preferably, the side walls of the front protrusions and the rear protrusions are arc-shaped; and the radian of the rear bulge is larger than that of the front bulge.

By adopting the technical scheme, the arc-shaped design enables the installation resistance of the rebound block to be smaller, and meanwhile, the abrasion to the sole body is reduced; the bellied and rear portion recess of the bigger rear portion of radian are more closely cooperated, make the rear portion installation of resilience piece more firm, reduce the rear heel atress and cause more that the rear portion recess is changeed deformation, cause the unstable problem of installation.

Preferably, a guard block is fixed at the edge of the heel part.

By adopting the technical scheme, most people can touch the ground with the heels firstly in the walking or jogging process, the protection block ensures that the feet of the human body cannot feel too soft without supporting feeling after touching the ground, the feet have elasticity after being stepped and can rebound with strength, the stress is quickly transited to the half sole after the heels touch the ground, the forward leaning of the movement gravity center of the human body is facilitated, and the foot protection effect is achieved.

Preferably, the rebound block and the protection block are made of TPU materials; the upper part of the rebound block is provided with a grid-shaped damping hole; the sole body composed of the front palm part, the arch part and the heel part is made of EVA primary foaming material.

By adopting the technical scheme, the grid-shaped damping holes assist in improving the damping effect, the shape of the rebound block with the penetrating holes in the side wall is better matched, the problem that the holes in the conventional shape are inconvenient to arrange due to gaps formed by the penetrating holes is solved, and the air permeability is also assisted to be improved; the sole body is made of EVA one-time foaming material, so that the sole body has excellent shock absorption and high resilience performance.

Preferably, a plurality of anti-slip blocks are fixed at the edges of the bottoms of the front palm part and the heel part at intervals, and anti-slip convex points are fixed at the bottoms of the front palm part and the heel part and between the anti-slip blocks at intervals; the upper parts of the front palm part and the heel part are both provided with a plurality of exhaust holes.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the rebound block can play a good supporting role for the foot according to human mechanics, the rebound force of the rebound block and the arrangement of the penetrating hole can play a role in damping and rebounding for the foot in the walking process, the comfort level of the arch part of the sole is improved in the long-time walking process, the health of the foot is protected, and a certain role in preventing flat foot is played; meanwhile, the through holes also enable the arch part to form a hollowed suspension effect, so that the appearance is higher;

2. on one hand, the rebound block is accommodated in the installation cavity to realize primary positioning; on the other hand, the front bulge of the rebound block is accommodated and positioned in the front groove, and the rear bulge is accommodated and positioned in the rear groove, so that the left and right positioning effect is realized on the rebound block; furthermore, the extension inserting plate on the side wall of the rebound block is inserted into the inserting cavity on the corresponding side, so that the rebound block is positioned up and down, and the rebound block is difficult to easily fall off from the installation cavity; in addition, the bottom of the rebound block is positioned by matching the convex block at the bottom of the rebound block with the arch mounting hole, and the structure generates a synergistic effect, so that the mounting stability of the rebound block is improved in an all-round manner;

3. most people walk or walk slowly, the heelpiece lands first, the protective block made of TPU material enables the feet of the human body not to feel too soft without supporting feeling after the feet land, the feet have elasticity after being stepped on and can also rebound with strength, the stress is quickly transited to the half sole after the heelpiece lands on the ground, the forward leaning of the movement gravity center of the human body is facilitated, and the function of protecting the feet is achieved.

Drawings

FIG. 1 is a schematic structural view of a sole according to an embodiment of the present application;

FIG. 2 is a partial schematic view of a mounting cavity at the arch portion highlighting an embodiment of the present application;

FIG. 3 is a schematic structural view of a resilient member of an embodiment of the present application;

fig. 4 is a schematic bottom structure view of the sole body according to the embodiment of the present application.

Description of reference numerals: 1. a sole body; 2. a front palm portion; 3. an arch portion; 31. a mounting cavity; 311. a front recess; 312. a rear recess; 4. a heel section; 41. a protection block; 5. a shock absorbing hole; 6. a resilient member; 61. a rebound block; 611. a through hole; 62. a front projection; 63. a rear projection; 7. a mounting structure; 71. an extension inserting plate; 72. an insertion cavity; 73. a bump; 74. mounting holes; 8. anti-skid blocks; 9. and anti-skid salient points.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses floated high-elastic sole of design, referring to figure 1, including sole body 1, sole body 1 is the foaming material system of EVA once, makes sole body 1 have the excellent high resilience performance of inhaling shake.

Referring to fig. 1 and 2, a sole body 1 is composed of a half sole part 2, an arch part 3 and a heel part 4; the upper parts of the front palm part 2 and the heel part 4 are provided with a plurality of exhaust holes for improving the air permeability; department of arch of foot portion 3 is provided with resilience part 6, and resilience part 6 includes bounce block 61, and arch of foot portion 3 sets up the installation cavity 31 that supplies the bounce block 61 installation, realizes bouncing block 61's preliminary location, increases arch of foot portion 3's resilience force by bounce block 61.

Referring to fig. 2 and 3, the resilient member 6 further includes a front protrusion 62 and a rear protrusion 63 respectively disposed on two front and rear opposite end walls of the resilient block 61, a front groove 311 and a rear groove 312 are respectively disposed on two front and rear opposite end walls of the mounting cavity 31, the front protrusion 62 is accommodated and positioned in the front groove 311, the rear protrusion 63 is accommodated and positioned in the rear groove 312, and the left and right positioning function is performed on the resilient block 61.

Referring to fig. 1 and 3, the side walls of the front projection 62 and the rear projection 63 are both arc-shaped, and the arc-shaped design makes the installation resistance of the rebound block 61 smaller, and reduces the abrasion to the sole body 1; and the radian of rear portion protruding 63 is greater than that of front portion protruding 62, and the rear portion protruding 63 with the bigger radian is more closely matched with rear portion recess 312, makes the rear portion installation of resilience piece 61 more firm, reduces heel 4 atress more and causes the rear portion recess to be more easily deformed, causes the unstable problem of installation.

Referring to fig. 1 and 3, the rebound block 61 is made of TPU, and a through hole 611 is formed through a side wall of the rebound block 61; the arrangement of the penetrating hole 611 is utilized to form a hollow suspension effect at the arch part 3, so that the appearance is higher; the setting of the resilience block 61 and the penetrating hole 611 of the TPU material can not only play a good supporting role for the foot according to human mechanics, but also play a shock absorption and resilience role for the foot in the walking process, and has practicability simultaneously.

Referring to fig. 3, the shock absorbing holes 5 in a grid shape are formed in the upper portion of the rebound block 61, the shock absorbing holes 5 of the rebound block 61 are in a grid shape, the shock absorbing effect is improved in an auxiliary manner, the shape of the rebound block 61 with the penetrating hole 611 formed in the side wall is better matched, the problem that the holes in the conventional shape are inconvenient to set due to the gap formed by the penetrating hole 611 is solved, and the air permeability is improved in an auxiliary manner.

Referring to fig. 1, the rebound block 61 is further stably attached to the arch portion 3 by the attachment structure 7.

Referring to fig. 2 and 3, the mounting structure 7 includes an extension insertion plate 71 extending and fixed to left and right opposite side walls of the rebound block 61, and the penetrating hole 611 of the rebound block 61 penetrates through the side walls of the extension insertion plate 71 to form a hollowed-out shape of the side walls of the arch part 3, so as to satisfy the requirement of rebound force and the beauty.

Referring to fig. 2 and 3, the mounting structure 7 further includes insertion cavities 72 respectively penetrating through the left and right opposite side walls of the arch portion 3, and the extension insertion plates 71 are inserted into the insertion cavities 72 on the corresponding sides to vertically position the resilient block 61, so that the resilient block 61 is difficult to easily come off from the mounting cavity 31.

Referring to fig. 2 and 4, the mounting structure 7 further includes a protrusion 73 fixed at the middle of the bottom of the resilient block 61 and a mounting hole 74 opened at the middle of the bottom of the arch portion 3, the protrusion 73 and the mounting hole 74 are in a matched diamond shape, and the protrusion 73 is accommodated and positioned in the mounting hole 74; the cooperation of lug 73 and mounting hole 74 improves the installation stability of bounce piece 61, and the design of rhombus still improves the aesthetic property of sole body 1 bottom.

Referring to fig. 1, a protective block 41 which is matched with the edge of the heel part 4 in shape is fixed at the edge of the heel part 4, and the protective block 41 is made of TPU material; most people are walking or jogging, the heels touch the ground first, the protective blocks 41 made of TPU materials enable the feet of the human body not to feel too soft without supporting feeling after touching the ground, the feet have elasticity and can rebound with strength after being stepped on, the stress is quickly transferred to the forepaw after the heels touch the ground, the forward leaning of the motion gravity center of the human body is facilitated, and the function of protecting the feet is achieved.

Referring to fig. 4, a plurality of anti-slip blocks 8 with stripes are fixed at the bottom edges of the half sole portion 2 and the heel portion 4 at intervals, round anti-slip convex points 9 are fixed at the bottoms of the half sole portion 2 and the heel portion 4 and between the anti-slip blocks 8 at intervals, the anti-slip blocks 8 play a role in anti-slip, and the anti-slip convex points 9 can increase pressure to enhance friction and assist in anti-slip.

The above embodiments and drawings do not limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be considered as departing from the scope of the present invention.

Claims (10)

1. Floated high-elastic sole of design includes sole body (1) of constituteing by preceding palm portion (2), arch of foot portion (3) and heel (4), its characterized in that: arch of foot portion (3) is provided with resilience part (6), resilience part (6) are including resilience piece (61), installation cavity (31) that supply resilience piece (61) to install are seted up in arch of foot portion (3), just the lateral wall of resilience piece (61) link up and has seted up through hole (611).

2. The shaped suspended high-elastic shoe sole according to claim 1, wherein: the rebounding component (6) further comprises a front protrusion (62) and a rear protrusion (63) which are respectively arranged on the opposite end walls of the rebounding block (61), and a front groove (311) for accommodating the front protrusion (62) and a rear groove (312) for accommodating the rear protrusion (63) are respectively formed in the opposite end walls of the mounting cavity (31).

3. The shaped suspended high-elastic shoe sole according to claim 1, wherein: the rebound block (61) is mounted on the arch part (3) through a mounting structure (7).

4. The shaped suspended high-elastic sole according to claim 3, wherein: mounting structure (7) including extend extension picture peg (71) and the grafting chamber (72) of lining up the lateral wall of seting up in arch of foot portion (3) on the lateral wall of extension fixed in rebound piece (61), extension picture peg (71) insert in grafting chamber (72).

5. The shaped suspended high-elastic sole according to claim 4, wherein: the penetrating hole (611) penetrates through the side wall of the extension inserting plate (71).

6. The shaped suspended high-elastic sole according to claim 3, wherein: the mounting structure (7) further comprises a convex block (73) fixed at the bottom of the rebound block (61) and a mounting hole (74) arranged at the bottom of the arch part (3) and used for accommodating the convex block (73).

7. The shaped suspended high-elastic sole according to claim 2, characterized in that: the side walls of the front protrusions (62) and the rear protrusions (63) are arc-shaped; and the radian of the rear bulge (63) is larger than that of the front bulge (62).

8. The shaped suspended high-elastic shoe sole according to claim 1, wherein: and a protective block (41) is fixed at the edge of the heel part (4).

9. The shaped suspended high-elastic shoe sole according to claim 8, wherein: the rebound block (61) and the protection block (41) are made of TPU materials; a grid-shaped damping hole (5) is formed at the upper part of the rebound block (61); the sole body (1) consisting of the front palm part (2), the arch part (3) and the heel part (4) is made of EVA (ethylene vinyl acetate) primary foaming material.

10. The shaped suspended high-elastic shoe sole according to claim 1, wherein: a plurality of anti-skidding blocks (8) are fixed at the bottom edges of the front palm part (2) and the rear heel part (4) at intervals, and anti-skidding convex points (9) are fixed at the bottoms of the front palm part (2) and the rear heel part (4) and between the anti-skidding blocks (8) at intervals; the upper parts of the front palm part (2) and the heel part (4) are provided with a plurality of exhaust holes.

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