CN216651485U - External harbor treasure decompression shock-proof leather shoe - Google Patents

Abstract

The utility model discloses an external heel counter pressure-reducing and shock-proof leather shoe, which comprises a sole, wherein the sole is connected with a vamp, the position of the outer side of the vamp, which is positioned at the heel, is provided with a heel counter body, the lower part of the heel counter body is connected with the sole, two sides of the heel counter body extend upwards along the edges to form baffle plates, the baffle plates are connected with the side edges of the vamp, a gap is formed between the baffle plates at two sides, the gap is positioned in the middle of the upper end of the heel counter body, the heel counter body is externally arranged at the position of the vamp, which is close to the heel, when in production, only the heel counter body and the vamp are directly adhered, the traditional step of arranging the heel counter in the vamp is omitted, the leather shoe is made of softer material, the baffle plates are formed by extending upwards along the edges at two sides of the heel counter body, the area of the side surface of the traditional heel counter body is larger, thereby better supporting two sides of the leather shoe, in addition, the friction to the heel during walking due to the formation of the baffle plates is avoided, therefore, the baffles on the two sides of the port treasure body are not connected to form a gap to provide a movable space.

Description

External harbor treasure decompression shock-proof leather shoe

Technical Field

The utility model belongs to the technical field of shoe material products, and particularly relates to an external heel counter pressure-reducing and shock-proof leather shoe.

Background

Shoes are indispensable daily necessities in daily life of people, wherein the heel counter is an indispensable part in the shoes, the main function is to play a shaping role on the upper surface of the rear part of the shoes, for leather shoes, the heel counter is usually made of leather pulp and is internally arranged at the heel part of the vamp, the manufacturing process is complicated, and the shaping effect is not ideal, so that the leather shoes with the external heel counter are provided, how to make the shoes more comfortable to wear is a main direction of shoe design, the soles are used as the main parts of the shoes, the shoe has a decisive effect on the wearing comfort, many existing leather shoes are not provided with damping structures, so the shoes are not comfortable to wear, and the shoes feel painful after a long walking time, and the utility model further provides a novel damping mode to improve the damping effect of the shoes.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an external heel counter pressure-reducing and shock-proof leather shoe to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides an external port treasure leather shoes that take precautions against earthquakes that decompress, includes the sole, be connected with the vamp on the sole, the position that the vamp outside is located the heel is equipped with the port treasure body, port treasure body lower part is connected with the sole, port treasure body both sides are upwards extended along the edge and are formed the baffle, the baffle is connected with the vamp side, is located to be formed with the breach between the baffle of both sides, the breach is located port treasure body upper end middle part.

According to a further technical scheme, the bottom of the port body is bonded or sewn with the sole.

According to the technical scheme, a first damping piece is arranged at a position, close to a heel, of the sole, a heel is arranged on one side, departing from the sole, of the first damping piece, a first supporting portion is arranged on the first damping piece, and one end, departing from the first damping piece, of the first supporting portion penetrates through the sole and protrudes out of the surface of the sole.

According to the technical scheme, a limiting hole and a plurality of limiting blocks are arranged at the position, close to the heel, of the sole, a first supporting portion penetrates out of the limiting hole to the surface of the sole, and one end of a damping piece abuts against the limiting blocks.

According to the technical scheme, one side, close to the limiting blocks, of the first damping piece is provided with a first protruding block, and the first protruding block can be clamped into a clamping position formed by the two adjacent limiting blocks.

According to a further technical scheme, the first damping piece is adaptive to the position, close to the heel, of the sole in shape.

According to the further technical scheme, one surface of the first damping piece, which is close to the heel, is provided with a groove, so that an arch-shaped damping structure is formed on one section of the first damping piece, and the first supporting part is arranged on the first damping piece at a position corresponding to the groove.

According to the further technical scheme, the shape of the heel is matched with that of the damping sheet, and a bulge corresponding to the groove is formed on the bottom surface of the heel in a concave mode.

Further technical scheme, be equipped with the joint structure between recess and the arch, the joint structure is including establishing a plurality of joint holes in the arch to and be located the recess and be equipped with a plurality of lugs two that can with joint hole joint.

According to a further technical scheme, a shock absorption component is arranged at the position, close to the half sole, of the sole.

The utility model has the beneficial effects that:

the heel-close position of the vamp is externally arranged on the heel of the heel, when the heel-close position shoe is produced, the heel-close position shoe only needs to be directly bonded with the vamp, the traditional step of arranging the heel in the vamp is omitted, secondly, the leather shoes are made of softer materials, the baffle plates are formed by upwards extending the edges of the two sides of the heel-close position shoe, the side surface area of the heel-close position shoe is larger than that of the traditional heel-close position shoe, therefore, the two sides of the heel-close position shoe can be better supported, in addition, the heel-close position shoe can be prevented from being rubbed during walking due to the formation of the baffle plates, the baffle plates on the two sides of the heel-close position shoe are not connected, and a gap is formed to provide a moving space.

In addition, the first shock attenuation piece adopts high elastic material to make and has fine compression and resilience effect, therefore the deformation takes place for the first atress of shock attenuation piece, absorbs partly pressure and plays decompression shockproof effect, secondly concentrates the pressure of heel through the first supporting part, can fully transmit pressure to the first shock attenuation piece in, makes a shock attenuation piece deformation and unload power to the compression and the resilience effect of a cooperation supporting part self, further promote decompression shockproof effect.

Additional features and advantages of the utility model will be set forth in the detailed description which follows.

Drawings

FIG. 1: rear view of the present invention.

FIG. 2: the rear view of the utility model is a cross-sectional view.

FIG. 3: side view of the present invention.

FIG. 4: the explosion diagram of the present invention.

FIG. 5: the first damping sheet and the support part are in a schematic structural view.

Detailed Description

The technical solution 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.

Please refer to fig. 1-5;

the leather shoes have the same structure as the leather shoes on the market at present, mainly comprise soles 1 and vamps, and are characterized in that the heel-close positions of the vamps are externally arranged on the vamps, when the shoes are produced, only the heel-close positions of the shoes are needed to be directly bonded with the heel-close positions of the vamps, the traditional step of arranging the heel-close positions in the vamps is omitted, the leather shoes are made of soft materials, baffle plates 51 are formed by extending upwards along the edges of the two sides of the heel-close bodies 5, the side areas of the shoes are larger than those of the traditional heel-close positions, so that the two sides of the leather shoes can be better supported, in addition, the friction to the heels when the shoes are walking is caused by avoiding the formation of the baffle plates 51, the baffle plates 51 on the two sides of the heel-close positions 5 are not connected, and gaps 52 are formed to provide a moving space.

Traditional leather shoes heel counter is arranged in the vamp, and the vamp is direct to sew up or the bonding with sole 1, because the material of leather shoes is softer, can lead to the position pincher trees or the collapse of vamp lower part near sole 1 after the live time is long, it is pleasing to the eye to influence, perhaps the cortex on surface drops and influences the dress, in this embodiment, make 5 bottoms of heel counter body and sole 1 be connected through adopting the bonding or the mode of sewing up, can let heel counter body 5 wrap up the position that the vamp is close to the heel completely like this, form complete support, make holistic intensity increase, prevent to warp.

The following embodiments describe the damper assembly 3

A high-elasticity damping sheet I21 and a heel 23 are sequentially arranged at the position, close to the heel, of the sole 1 body, wherein the supporting part I22 can be arranged in different sizes according to different shoe types, but the width of the supporting part I22 is far smaller than that of the damping sheet I21, and the structure is similar to a convex structure; although the first support part 22 protrudes out of the sole 1 body, the first support part protrudes slightly, so that the heel can be touched, and the second complete shoe also comprises an insole sole, an insole and a shoe body, wherein the protruding first support part 22 is wrapped by the insole sole and the insole, so that people can not feel discomfort due to the protruding first support part 22 when wearing the shoe;

the damping principle is as follows: when the heel applies pressure to the sole 1, the first damping sheet 21 is made of a high-elasticity material and has good compression and rebound effects, so that the first damping sheet 21 is stressed to deform firstly, absorbs a part of pressure to achieve the effects of pressure reduction and shock prevention, but the first damping sheet 21 is not completely compressed at the moment, the heel further applies pressure to the damping piece, the first supporting part 22 is stressed and transmits pressure to the first damping sheet 21 through the first supporting part 22, namely the first supporting part 22 and the first damping sheet 21 are stressed to deform simultaneously, and the pressure of the heel is absorbed, so that the good effects of pressure reduction and shock prevention are achieved;

the traditional damping mode is generally that an air cushion or a damping sheet is arranged, when the shock absorption device is used, pressure cannot be well conducted to the damping parts, and the shock absorption device is quite in direct contact with heels, namely the contact area is relatively large, so that the pressure is relatively dispersed, and the damping parts are not easy to absorb the pressure of the heels;

the first support part 22 concentrates the pressure of the heel, the pressure can be fully transmitted to the first damping sheet 21, the first damping sheet 21 deforms to remove the force, and the compression and rebound effects of the first support part 22 are matched to further improve the pressure reduction and shock prevention effects.

In this embodiment, a damping piece 21 shape suits with the position that sole 1 body is close to the heel, namely the volume of a damping piece 21 has been enlarged as far as possible, make a damping piece 21 have better energy-absorbing effect, in addition, through be equipped with recess 211 on a damping piece 21, make a damping piece 21 cross-section form "arch" shock-absorbing structure, make pressure can unload power to both sides from "arch" shock-absorbing structure's centre, reduce the pressure better, reduce the reaction force and promote shockproof effect simultaneously, still provide the activity space of a damping piece 21 through recess 211, less damping piece 21 should be excessively and fatigue tear, lead to the damping effect to weaken.

In this embodiment, when being installed, the first supporting portion 22 passes through the limiting hole 24 and is disposed on the surface of the sole 1 body, wherein the shape of the limiting hole 24 is adapted to the shape of the cross section of the first supporting portion 22, and may be circular, square or oval, and the like, the limiting block 25 has the function of preventing the first supporting portion 22 from deviating in addition to the installation requirement, so as to ensure the relative position between the first supporting portion 22 and the first damping piece 21, and usually, the first supporting portion 22 is provided with the middle position of the first damping piece 21 and is located above the groove 211, and in addition, the limiting block 25 is abutted against one end of the first damping piece 21 to limit the displacement thereof, i.e., ensure the relative position between the first damping piece 21 and the first supporting portion 22; in order to further improve the fastening effect of the damping piece and the sole 1 body, a first bump 26 is arranged on one side of the first damping piece 21 close to the limiting blocks 25, and the first bump 26 can be clamped into a clamping position 27 formed by two adjacent limiting blocks 25.

The shape of the heel 23 is designed to be consistent with the shape of the first damping sheet 21 so as to bear the first damping sheet 21, the heel 23 is further provided with a protrusion 231 matched with the shape of the groove 211, the formed protrusion 231 also has an elastic effect, when the shock absorption structure is deformed, the protrusion 231 can enter the groove 211, when the shock absorption structure is deformed, the protrusion 231 can also follow the deformation, and the protrusion is reset when the shock absorption structure is not stressed, so that the effect of bearing and supporting the groove 211 is achieved.

In this embodiment, a clamping structure is disposed between the groove 211 and the protrusion 231 to enhance the fastening degree between the first shock absorbing member and the sole 1, and further, the clamping structure includes a plurality of clamping holes 41 disposed on the protrusion 231, and a plurality of second protrusions 42 disposed in the groove 211 and capable of clamping with the clamping holes 41.

In this embodiment, still be equipped with damping component 3 in sole 1 near the position of preceding palm, further promote the shock attenuation effect of shoes.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it will be understood by those skilled in the art that the specification as a whole and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides an external gang bao decompression leather shoes that take precautions against earthquakes, includes sole (1), be connected with vamp, its characterized in that on sole (1): the position that the vamp outside is located the heel is equipped with port treasured body (5), port treasured body (5) lower part is connected with sole (1), port treasured body (5) both sides are upwards extended along the edge and are formed baffle (51), baffle (51) are connected with the vamp side, lie in and form jaggedly (52) between both sides baffle (51), breach (52) are located port treasured body (5) upper end middle part.

2. The external harbour pressure-reducing and shock-proof leather shoe as claimed in claim 1, wherein: the bottom of the heel counter body (5) is bonded or sewn with the sole (1).

3. The external harbor pressure-reducing shockproof leather shoe as claimed in claim 1, wherein: the sole (1) is close to the position shock attenuation piece (21) of heel, one side that shock attenuation piece (21) deviates from sole (1) is equipped with heel (23), be equipped with supporting part (22) on shock attenuation piece (21), the one end that supporting part (22) deviates from shock attenuation piece (21) runs through sole (1) to salient in its surface.

4. The external harbour pressure-reducing and shock-proof leather shoe as claimed in claim 3, wherein: the sole (1) is equipped with spacing hole (24) and a plurality of stopper (25) near the position of heel, supporting part (22) are worn out to sole (1) surface from spacing hole (24), damping piece (21) one end offsets with stopper (25).

5. The external harbour pressure-reducing and shock-proof leather shoe as claimed in claim 4, wherein: one side of the first damping piece (21) close to the limiting blocks (25) is provided with a first bump (26), and the first bump (26) can be clamped into a clamping position (27) formed by the two adjacent limiting blocks (25).

6. The external harbour pressure-reducing and shock-proof leather shoe as claimed in claim 5, wherein: the shape of the first shock absorption sheet (21) is adapted to the position of the sole (1) close to the heel.

7. The external harbour pressure-reducing and shock-proof leather shoe as claimed in claim 6, wherein: one side of the first damping piece (21) close to the heel (23) is provided with a groove (211), so that the section of the first damping piece (21) forms an arch-shaped damping structure, and the first supporting part (22) is arranged on the first damping piece (21) at a position corresponding to the groove (211).

8. The external harbour pressure-reducing and shock-proof leather shoe as claimed in claim 7, wherein: the heel (23) is matched with the first shock absorption sheet (21) in shape, and a bulge (231) corresponding to the groove (211) is concavely formed on the bottom surface of the heel (23).

9. The external harbour pressure-reducing and shock-proof leather shoe as claimed in claim 8, wherein: be equipped with the joint structure between recess (211) and arch (231), the joint structure is including establishing a plurality of joint holes (41) on arch (231) to and be located recess (211) and be equipped with a plurality of lugs two (42) that can with joint hole (41) joint.

10. The external harbour pressure-reducing and shock-proof leather shoe as claimed in any one of claims 1 to 9, wherein: the sole (1) is provided with a damping component (3) at a position close to the half sole.

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