CN108783745B - Anti-skidding, damping and breathable multifunctional sole and shoe - Google Patents

Abstract

The invention discloses an antiskid, damping and breathable multifunctional sole and a shoe, which comprise an insole, an outsole and a midsole; the upper surface and the lower surface of the insole are respectively provided with a plurality of first anti-skid shock absorption blocks and second anti-skid shock absorption blocks; the length of the first anti-skid damping block is longer than that of the second anti-skid damping block, and the length of the first anti-skid damping block is longer than the thickness of the outsole and shorter than that of the insole; the anti-skid shoe is characterized in that a first through hole and a second through hole are formed in the inner sole, a third through hole and a fourth through hole are formed in the outer sole, the first through hole corresponds to the first anti-skid damping block, the second through hole corresponds to the second anti-skid damping block after being turned, the third through hole corresponds to the second anti-skid damping block, and the fourth through hole corresponds to the first anti-skid damping block after being turned. Compared with the prior art, the multifunctional electric heating cooker has the characteristics of simple structure, low production cost and multiple functions.

Description

Anti-skidding, damping and breathable multifunctional sole and shoe

Technical Field

The invention relates to the field of soles, in particular to an anti-skidding, damping and breathable multifunctional sole and a shoe.

Background

Under the rapid development of the shoe industry, the variety and the function of the shoes are more and more abundant, the requirements of people on the comfort level and the functionality of the shoes are higher and higher, and the manufacture of the shoes with high comfort level and multiple functions also becomes an important target pursued by the manufacturing process of the shoe industry. At present, the most structure of multi-functional shoes is complicated, and complicated structure will certainly lead to the fact the improvement of shoes cost, consequently the urgent need realize let shoes wear comfortable while manufacturing cost also obtains reducing, and realizes multiple functions and reaches the demand that the consumer is multi-functional to shoes.

In view of the above, the applicant has made an intensive study to solve the above problems and has made the present invention.

Disclosure of Invention

The invention mainly aims to provide an anti-skidding, damping and breathable multifunctional sole and a shoe, which have the characteristics of simple structure, low production cost and multiple functions.

In order to achieve the above purpose, the solution of the invention is:

a multifunctional sole with anti-skid, shock-absorbing and ventilating functions comprises an insole directly contacted with a foot, an outsole contacted with the ground, and a midsole positioned between the insole and the outsole; the insole is provided with a plurality of first anti-skid shock absorption blocks which are uniformly distributed on the upper surface of the insole and a plurality of second anti-skid shock absorption blocks which are uniformly distributed on the lower surface of the insole; the length of the first anti-skid shock absorption block is longer than that of the second anti-skid shock absorption block, the length of the first anti-skid shock absorption block is longer than the thickness of the outsole and shorter than that of the insole, and the length of the second anti-skid shock absorption block is shorter than that of the outsole;

the inner sole is provided with a first through hole and a second through hole, the first through hole is arranged corresponding to the first anti-skid damping block, the second through hole is arranged corresponding to the second anti-skid damping block after overturning, the outer sole is provided with a third through hole and a fourth through hole, the third through hole is arranged corresponding to the second anti-skid damping block, and the fourth through hole is arranged corresponding to the first anti-skid damping block after overturning;

first anti-skidding snubber block and second anti-skidding snubber block all include main part, collateral branch portion and undercut, the collateral branch portion is established in one side of main part, the opposite side that is relative with the collateral branch portion is established on the main part to the undercut, just the outstanding top of collateral branch portion is in same horizontal position with the sunken bottom of collateral branch portion, the outstanding profile and the sunken profile phase-match of collateral branch portion, the collateral branch portion has two and is the one side of upper and lower distribution at the main part, the collateral branch portion has two and is the opposite side of upper and lower distribution at the main part.

Further, the midsole comprises a first sub sole, a second sub sole, a third sub sole and a fourth sub sole; the first sub-sole, the second sub-sole, the third sub-sole and the fourth sub-sole are sequentially arranged from the toe cap to the heel and are connected in a sliding manner.

Furthermore, the upper surface of the insole is also provided with a groove which is communicated with the first through hole, the front sole and the rear heel part of the groove are provided with a shock absorption ventilating piece, the shock absorption ventilating piece comprises a spherical upper bottom which is directly contacted with the sole, a cylindrical lower bottom which is matched with the first through hole, an inner cavity which is formed by the spherical upper bottom and the cylindrical lower bottom, a buffer structure which is arranged in the inner cavity and a plurality of communicating holes which are communicated with the inner cavity and the outside; the plurality of communicating holes are uniformly distributed on the spherical upper bottom, and the cylindrical lower bottom is inserted into the first through hole.

Furthermore, buffer structure includes first supporting shoe, second supporting shoe and pressure spring, first supporting shoe is vertical to be established on the spherical upper sole, the second supporting shoe corresponds with first supporting shoe and vertically establishes on the cylindricality lower sole, the pressure spring is vertical to be established between first supporting shoe and second supporting shoe and to be connected first supporting shoe and second supporting shoe, just the pressure spring is in the centre of sphere position at spherical upper sole.

Further, the insole includes sole external mold, first centre form and second centre form, be equipped with the fifth through-hole of bilateral symmetry on the sole external mold, first centre form and second centre form accordant connection together inlay and establish in the fifth through-hole, the width of first centre form is less than the width of second centre form, the upper surface of first centre form and second centre form all is equipped with first anti-skidding snubber block, be equipped with second anti-skidding snubber block on the lower surface of first centre form and second centre form, the length of first anti-skidding snubber block is longer than second anti-skidding snubber block, and the length of first anti-skidding snubber block is longer than the thickness of outsole and is shorter than the thickness of insole.

A shoe comprises an upper and a multifunctional sole, wherein the upper is connected with the multifunctional sole and encloses a shoe cavity.

After adopting the structure, the use process of the antiskid, damping and breathable multifunctional sole provided by the invention comprises the following steps:

the insole is turned over for use on the upper side and the lower side, and the purpose of different effects is achieved. When the sole need possess stronger shock-absorbing function, insert first anti-skidding snubber block in the insole to first through-hole, second anti-skidding snubber block inserts in the third through-hole, because cooperation between first anti-skidding snubber block and second anti-skidding snubber block and first through-hole and the third through-hole, make first anti-skidding snubber block and the second anti-skidding snubber block that is located on the insole play the effect of connecting insole and outsole, and because the length of first anti-skidding snubber block is shorter than the thickness of insole, the length of second anti-skidding snubber block is shorter than the thickness of outsole, make first through-hole on the insole not filled by first anti-skidding snubber block completely, third through-hole on the outsole is not filled by second anti-skidding snubber block completely, thereby possess the cushioning effect. When needs play antiskid, overturn the insole, make first anti-skidding snubber block on the insole insert the fourth through-hole, second anti-skidding snubber block inserts in the second through-hole, first anti-skidding snubber block exposes in the outsole, a plurality of exposes and plays anti-skidding effect with the first anti-skidding snubber block of outsole bottom, again because all there are two lateral protrusion portions and two lateral recess on each first anti-skidding snubber block, consequently make first anti-skidding snubber block have great deformation space, first anti-skidding snubber block's deformability is stronger, and then make first anti-skidding snubber block have stronger shock attenuation anti-skidding function.

Compared with the prior art, the invention has at least the following beneficial effects:

1. the shoe cover has the characteristics of simple structure, low production cost and multiple functions, thereby greatly improving the comfort of people after wearing the shoes and effectively prolonging the service life of the shoes.

2. Make the insole realize the switching of shock attenuation and anti-skidding function through the upset through setting up first anti-skidding snubber block, second anti-skidding snubber block and insole that can overturn to insole, outsole and insole are through the connection of first anti-skidding snubber block and second anti-skidding snubber block, make the upset of insole more convenient, can realize quick replacement after having the sole impaired.

3. The multifunctional sole comprises an inner sole, an outer sole and a middle sole, the split of the sole is realized, any one of the inner sole, the outer sole or the middle sole only needs to be correspondingly replaced after being damaged, and the service life of the whole sole is greatly prolonged.

Drawings

Fig. 1 is an exploded perspective view of the present invention.

Fig. 2 is an exploded side view of the overall structure of the present invention.

FIG. 3 is a schematic view of a first anti-skid damping block and a second anti-skid damping block according to the present invention.

Fig. 4 is an exploded perspective view of another embodiment of the present invention.

Fig. 5 is an exploded side view of another embodiment of the present invention.

FIG. 6 is a schematic view of the structure of the shock absorbing and air permeable member of the present invention.

FIG. 7 is a schematic view showing the internal structure of the shock-absorbing air-permeable member of the present invention.

In the figure:

an insole-1; a first through-hole-11; a groove-12;

a shock-absorbing and air-permeable member-13; a spherical upper base-131;

a cylindrical lower base-132; an inner cavity-133; -a buffer structure-134;

a communicating hole-135; a second through hole-14; an outsole-2;

a third through hole-21; a fourth through-hole-22; a middle sole-3;

a first anti-skid shock-absorbing block-31; a second anti-skid shock-absorbing block-32; a main body portion-41;

a lateral protrusion-42; an undercut-43; a first outsole-51;

a second sub-sole-52; a third part sole-53; a fourth sole assembly-54;

a first support block-61; a second support block-62;

a pressure spring-63; an outer sole mold-71;

a first inner die-72; a second inner mold-73; a fifth through hole-74.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

As shown in fig. 1 to 7, a multi-functional sole for preventing slip, absorbing shock and ventilating comprises an insole 1 directly contacting with the foot, an outsole 2 contacting with the ground, a midsole 3 between the insole 1 and the outsole 2; the middle sole 3 is provided with a plurality of first anti-skid shock absorption blocks 31 which are uniformly distributed on the upper surface of the middle sole 3 and a plurality of second anti-skid shock absorption blocks 32 which are uniformly distributed on the lower surface of the middle sole 3; the length of the first anti-skid shock-absorbing block 31 is longer than that of the second anti-skid shock-absorbing block 32, and the length of the first anti-skid shock-absorbing block 31 is longer than the thickness of the outsole 2 and shorter than that of the insole 1, and the length of the second anti-skid shock-absorbing block 32 is shorter than that of the outsole 2;

the insole 1 is provided with a plurality of first through holes 11 and a plurality of second through holes 14, the outsole 2 is provided with a plurality of third through holes 21 and a plurality of fourth through holes 22, the first through holes 11 are arranged corresponding to the first anti-skid damping blocks 31, the second through holes 14 are arranged corresponding to the second anti-skid damping blocks 32 after being turned, the third through holes 21 are arranged corresponding to the second anti-skid damping blocks 32, the fourth through holes 22 are arranged corresponding to the first anti-skid damping blocks 31 after being turned, the first anti-skid damping blocks 31 are in interference fit with the first through holes 11 and the fourth through holes 22, and the second anti-skid damping blocks 32 are in interference fit with the second through holes 14 and the third through holes 21, so that the first anti-skid damping blocks 31 can be firmly inserted into the first through holes 11 and the fourth through holes 22, and the second anti-skid damping blocks 32 can also be firmly inserted into the second through holes 14 and the third through holes 21, thereby ensuring the stability of the whole structure of the sole;

each of the first anti-skid shock-absorbing block 31 and the second anti-skid shock-absorbing block 32 includes a main body 41, a lateral protrusion 42 and a lateral recess 43, the lateral protrusion 42 is disposed on one side of the main body 41, the lateral recess 43 is disposed on the other side of the main body 41 opposite to the lateral protrusion 42, and the top end of the lateral protrusion 42 and the bottom end of the lateral recess 43 are disposed at the same horizontal position, so that the protruding profile of the lateral protrusion 42 matches the recessed profile of the lateral recess 43, the lateral protrusions 42 are two and vertically distributed on one side of the main body 41, and the lateral recesses 43 are two and vertically distributed on the other side of the main body 41.

After the structure is adopted, the upper surface and the lower surface of the insole 3 are overturned for use, so that the aims of different effects are fulfilled. When the sole needs to have a stronger shock absorption function, the first anti-skid shock absorption block 31 on the midsole 3 is inserted into the first through hole 11, and the second anti-skid shock absorption block 32 is inserted into the third through hole 21, due to the cooperation between the first anti-skid shock absorption block 31 and the second anti-skid shock absorption block 32 and the first through hole 11 and the third through hole 21, the first anti-skid shock absorption block 31 and the second anti-skid shock absorption block 32 on the midsole 3 play a role in connecting the insole 1 and the outsole 2, the length of the first anti-skid shock absorption block 31 is shorter than the thickness of the insole 1, the length of the second anti-skid shock absorption block 32 is shorter than the thickness of the outsole 2, so that the first through hole 11 on the insole 1 is not completely filled by the first anti-skid shock absorption block 31, and the third through hole 21 on the outsole 2 is not completely filled by the second anti-skid shock absorption block 32, thereby having a shock absorption effect. When needs play antiskid and shock-absorbing function, overturn insole 3, make first anti-skidding snubber block 31 on insole 3 insert fourth through-hole 22, second anti-skidding snubber block 32 inserts in second through-hole 14, first anti-skidding snubber block 31 exposes in outsole 2, a plurality of exposes and plays anti-skidding effect with first anti-skidding snubber block 31 of outsole 2 bottom, again because all there are two lateral protrusion portions 42 and two lateral recess portions 43 on each first anti-skidding snubber block 31, consequently make first anti-skidding snubber block 31 have great deformation space, first anti-skidding snubber block 31's deformability is stronger, and then make first anti-skidding snubber block 31 have stronger shock attenuation anti-skidding function.

Preferably, the mid-sole 3 comprises a first sub-sole 51, a second sub-sole 52, a third sub-sole 53 and a fourth sub-sole 54; the first sub-sole 51, the second sub-sole 52, the third sub-sole 53 and the fourth sub-sole 54 are sequentially arranged from the toe to the heel and are connected with each other in a sliding manner. After the insole 3 adopts the above structure, when the insole 3 is turned over for use, because the left sole of the human body is asymmetric and the right sole is also asymmetric, when the left sole and the right sole are overlapped together, the outlines of the left sole and the right sole cannot be completely overlapped, and the left sole and the right sole are not overlapped with each other, and the sole is designed according to the structure of the human foot, so that the left sole and the right sole are divided into a left sole and a right sole, after the left sole and the right sole are overlapped, the left sole and the right sole must have the parts which are not overlapped with each other, however, after the left sole is turned over, the left sole and the right sole are overlapped with the right sole which is not turned over, the outlines of the left sole and the right sole are consistent, and after the right sole is turned over, the left sole and the right sole are overlapped with the left sole which is not turned over, and the outlines of the left sole and the right sole are consistent.

In order to make the inverted midsole 3 consistent with the contours of the insole 1 and the outsole 2, so as to ensure the aesthetic appearance of the sole after the midsole 3 is inverted, after the relative sliding of the first sub-sole 51, the second sub-sole 52, the third sub-sole 53 and the fourth sub-sole 54 on the midsole 3, the external contour surrounded by the first sub-sole 51, the second sub-sole 52, the third sub-sole 53 and the fourth sub-sole 54 is consistent with the external contour of the insole 1, and the first anti-skid damping block 31 and the second anti-skid damping block 32 on the first sub-sole 51, the second sub-sole 52, the third sub-sole 53 and the fourth sub-sole 54 are respectively matched with the fourth through hole 22 and the second through hole 14 to be inserted, so as to play the roles of anti-skid damping and simultaneously ensure the aesthetic appearance of the outside of the sole.

Preferably, the upper surface of the insole 1 is further provided with a groove 12, the front sole and the rear heel of the groove 12 are provided with a shock-absorbing and air-permeable member 13, the shock-absorbing and air-permeable member 13 comprises a spherical upper sole 131 directly contacting with the sole of the foot, a cylindrical lower sole 132 matched with the first through hole 11, an inner cavity 133 formed by the spherical upper sole 131 and the cylindrical lower sole 132, a buffer structure 134 arranged in the inner cavity 133 and a plurality of communication holes 135 communicating the inner cavity 133 with the outside; the spherical upper bottom 131 is connected with the cylindrical lower bottom 132, the plurality of communication holes 135 are uniformly distributed on the spherical upper bottom 131, and the cylindrical lower bottom 132 is correspondingly inserted in the first through hole 11 in a matching manner. After the insole 1 adopts the above structure, the cylindrical lower sole 132 on the shock absorption and ventilation member 13 is inserted into the first through hole 11, the sole of the foot presses the spherical upper sole 131, the spherical upper sole 131 is pressed and deformed to enable the air in the inner cavity 133 to enter the shoe through the communication hole 135, then the spherical upper sole 131 recovers deformation to enable the air in the shoe to be absorbed and enter the inner cavity 133 through the communication hole 135, and the functions of accelerating air circulation and buffering and shock absorption are achieved through the effect of the shock absorption and ventilation member 13. And the shock absorption and ventilation piece 13 is positioned at the front sole part and the rear heel part, so that the shock absorption and ventilation piece 13 can play a role of air exchange of the whole shoe, and the complete circulation of the air in the shoe is ensured.

Preferably, the buffer structure 134 includes a first support block 61, a second support block 62 and a pressure spring 63, the first support block 61 is vertically disposed on the spherical upper bottom 131, the second support block 62 is vertically disposed on the cylindrical lower bottom 132 corresponding to the first support block 61, the pressure spring 63 is vertically disposed between the first support block 61 and the second support block 62 and connected to the first support block 61 and the second support block 62, and the pressure spring 63 is located at the center of the spherical upper bottom 131. After the structure is adopted, the first supporting block 61 and the second supporting block 62 play a role in supporting the spherical upper bottom 131, excessive deformation of the spherical upper bottom 131 is avoided, and the compression spring 63 is positioned at the center of the sphere of the spherical upper bottom 131, so that the deformation of the spherical upper bottom 131 reaches a reasonable degree.

Preferably, in order to ensure that said mid-sole 3 is inverted, the contour of the mid-sole 3 is maintained in correspondence with the contour of the inner sole 1 and of the outer sole 2. The midsole 3 can also adopt the following structure, the midsole 3 comprises a sole outer die 71, a first inner die 72 and a second inner die 73, the sole outer die 71 is provided with fifth through holes 74 with bilateral symmetry, the first inner die 72 and the second inner die 73 are connected in a matched manner and embedded in the fifth through holes 74 together, the width of the first inner die 72 is smaller than that of the second inner die 73, the upper surfaces of the first inner die 72 and the second inner die 73 are both provided with first anti-skid damping blocks 31, the lower surfaces of the first inner die 72 and the second inner die 73 are provided with second anti-skid damping blocks 32, the length of the first anti-skid damping blocks 31 is longer than that of the second anti-skid damping blocks 32, and the length of the first anti-skid damping blocks 31 is longer than that of the outsole 2 and shorter than that of the insole 1. After the structure is adopted, the midsole 3 needs to play a role in anti-skidding and damping, so that the first anti-skidding and damping blocks 31 on the first inner die 72 and the second inner die 73 are inserted into the fourth through hole 22 on the outsole 2, the first anti-skidding and damping blocks 31 are exposed out of the bottom of the outsole 2 to play a role in anti-skidding, and the second through holes 14 are not completely filled with the second anti-skidding and damping blocks 32, so that a damping effect is achieved; when further shock absorption is needed, the first inner die 72 and the second inner die 73 are turned over, the first anti-skid shock absorption blocks 31 are inserted into the first through holes 11, the second anti-skid shock absorption blocks 32 are inserted into the third through holes 21, and the first through holes 11 and the third through holes 21 are not filled with the first anti-skid shock absorption blocks 31 and the second anti-skid shock absorption blocks 32, so that the first through holes 11 of the plurality of and the third through holes 21 of the plurality of play a further shock absorption role, and the shock absorption effect is greatly improved.

A shoe comprises an upper (not shown) and a multifunctional sole, wherein the upper is connected with the multifunctional sole and encloses a shoe cavity (not shown).

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

Claims (3)

1. A multifunctional sole with anti-skid, shock-absorbing and ventilation functions is characterized by comprising an insole directly contacted with a foot, an outsole contacted with the ground, and a midsole positioned between the insole and the outsole; the insole is provided with a plurality of first anti-skid shock absorption blocks which are uniformly distributed on the upper surface of the insole and a plurality of second anti-skid shock absorption blocks which are uniformly distributed on the lower surface of the insole; the length of the first anti-skid damping block is longer than that of the second anti-skid damping block, and the length of the first anti-skid damping block is longer than the thickness of the outsole and shorter than that of the insole;

the anti-skid shoe comprises an insole, an outsole, a first anti-skid damping block, a second anti-skid damping block, a first through hole, a second through hole, a third through hole and a fourth through hole, wherein the insole is provided with the first through holes and the second through holes;

first anti-skidding snubber block and second anti-skidding snubber block all include main part, collateral branch portion and undercut, the collateral branch portion is established in one side of main part, the undercut is established on the main part with the opposite side of collateral branch portion, just the outstanding top of collateral branch portion and the sunken bottom of collateral branch portion are in same horizontal position, the outstanding profile and the undercut profile phase-match of collateral branch portion, the collateral branch portion has two and distributes in one side of main part about being, the undercut has two and distributes in the opposite side of main part about being.

2. The multi-functional anti-slip, shock-absorbing and breathable sole according to claim 1, wherein said midsole comprises a first partial sole, a second partial sole, a third partial sole and a fourth partial sole; the first sub-sole, the second sub-sole, the third sub-sole and the fourth sub-sole are sequentially arranged from the toe cap to the heel and are connected in a sliding manner.

3. A shoe, characterized in that it comprises an upper and a multifunctional sole according to any one of claims 1-2, said upper being connected to said multifunctional sole and enclosing a shoe cavity.

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