CN212754496U - Integrally formed sole - Google Patents

Abstract

The utility model discloses an integrated shoe sole, which comprises a midsole and an outsole, wherein the outsole comprises a shoe cover, the left side of the upper surface of the shoe cover is provided with a heel part, the right side of the heel part is provided with a connecting part, the connecting part comprises a concave part and a convex part, the right side of the connecting part is provided with a toe part, the side wall of the shoe cover is provided with a flow guide mechanism, the flow guide mechanism comprises a fish scale part, the outer wall of the fish scale part is provided with an arc groove part, the left end of the arc groove part is provided with a horizontal part, the upper surface of the shoe cover is provided with an auxiliary mechanism, the midsole, the outsole, the flow guide mechanism and the auxiliary mechanism are integrated, the production cost is low, the period is short, in addition, no treatment agent or glue is needed in the production process, the damage to the, the upper surface of the shoe cover is provided with an auxiliary mechanism.

Description

Integrally formed sole

Technical Field

The utility model relates to a sole technical field, more specifically say, relate to an integrated into one piece formula sole.

Background

Shoes are indispensable daily necessities in daily life, and soles are important parts of the shoes. The sole in the prior art generally comprises an outsole and a midsole, the outsole of the shoe generally adopts a rubber material with better wear resistance, and in order to increase the elasticity and comfort of the shoe, the midsole of the shoe generally adopts a PU material, because the outsole and the midsole are made of different materials, the traditional process for manufacturing the sole generally comprises the steps of firstly foaming and forming the PU midsole, simultaneously preparing the rubber outsole, then manually bonding the midsole and the outsole through glue, firstly removing burrs on the outsole and the midsole in the bonding process, then coating a treating agent on the bonding surface of the outsole and the midsole, then gluing and bonding, aligning the edges of the outsole and the midsole carefully, avoiding influencing the product attractiveness due to inaccurate bonding, therefore, the traditional manufacturing method for manufacturing the sole by bonding the PU midsole and the rubber outsole through glue needs a large amount of manual operation in the whole production process, wastes time and labor, the production efficiency is low, the quality problems of misalignment or glue failure of the edges of the outsole and the middle sole are easily caused, the molds are required to be respectively arranged on the outsole and the middle sole, the cost is high, the production period is long, meanwhile, the treating agent and the glue used in the production process generally contain harmful substances, emit harmful gas, pollute the environment and damage the body of workers, the current shoe sole has poor rainwater diversion effect, and the rainwater on the ground is easily stained on the edges of the trouser legs in the walking process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an integrated into one piece formula sole aims at can effectual problem among the solution prior art.

In order to solve the above problem, the utility model adopts the following technical scheme:

the utility model provides an integrated into one piece formula sole, includes insole and outsole, the outsole includes the shoe cover, the upper surface left side of shoe cover is provided with the heel portion, the right of heel portion is provided with connecting portion, connecting portion include spill portion and convex portion, the right of connecting portion is provided with the toe cap portion, be provided with water conservancy diversion mechanism on the lateral wall of shoe cover, water conservancy diversion mechanism includes fish scale portion, be provided with the arc slot part on the outer wall of fish scale portion, the left end of arc slot part is provided with the horizontal part, the upper surface of shoe cover is provided with complementary unit, insole, outsole, water conservancy diversion mechanism and complementary unit integrated into one piece.

As an optimized scheme of the utility model, the outer wall of insole inclines towards fish scale portion, fish scale portion is arranged along the lateral wall array of outsole, and the upper end of fish scale portion links together with the bottom of insole, the bottom of horizontal part is located same horizontal plane with the bottom of outsole.

As an optimized scheme of the utility model, the complementary unit includes the radiation stand, the center department of assembling of radiation stand is provided with and gathers a class portion, the radiation stand with gather and flow on the upper surface that the position is located the heel portion.

As a preferred scheme of the utility model, the upper surface of the radiation stand column is positioned above the upper surface of the shoe cover, and the flow gathering part is sunk on the upper surface of the shoe cover.

As a preferred scheme of the utility model, the right-hand arc portion that is provided with of radiation stand, the interval is provided with the concave part between the arc portion, the highly unanimous with the height of radiation stand of arc portion, arc portion and concave part are located the upper surface of connecting portion.

As a preferred scheme of the utility model, the right-hand corrugated portion that is provided with of arc portion, the height of corrugated portion is highly unanimous with the height of arc portion, be provided with in the corrugated portion and change to the portion and keep off the class portion, change to the portion and be located on one side with the spill position, it is close to convex part to keep off the class portion, the right that keeps off the class portion is provided with the arc wall oral area.

As an optimized scheme of the utility model, the ripple is located the upper surface of toe cap portion, the height that keeps off the class portion and the arc notch portion all is less than the ripple, the inside of turning to the portion is provided with half ring portion, the center of turning to the portion is provided with the central part.

As a preferred scheme of the utility model, turn to the portion and cave in the shoe cover, the height that highly is greater than half ring portion of turn to portion, the height that highly is greater than the central part of half ring portion.

Compared with the prior art, the utility model has the advantages of:

(1) insole, outsole, water conservancy diversion mechanism and complementary unit integrated into one piece, low in production cost, the cycle is short to need not use finishing agent and glue in process of production, reduced the injury that causes the workman's health.

(2) In order to prevent rainwater on the ground from easily splashing to the trouser leg edges, the side wall of the shoe cover is provided with a flow guide mechanism, and the upper surface of the shoe cover is provided with an auxiliary mechanism.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the auxiliary mechanism of the present invention;

fig. 3 is a schematic view of the semi-ring structure of the present invention.

The reference numbers in the figures illustrate:

1. a midsole; 2. an outsole; 21. a toe cap portion; 22. a connecting portion; 221. a concave portion; 222. a male portion; 23. a heel portion; 24. shoe covers; 3. a flow guide mechanism; 31. a fish scale portion; 32. an arc-shaped groove part; 33. a horizontal portion; 4. an auxiliary mechanism; 41. an arc-shaped notch part; 42. a corrugated portion; 43. a flow blocking part; 44. a direction changing section; 45. an arc-shaped portion; 46. a groove part; 47. a radial column; 48. a flow collecting part; 49. a central portion; 410. half ring portion.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention based on the embodiments of the present invention.

Example (b):

referring to fig. 1-3, an integrally formed sole includes a midsole 1 and an outsole 2, the outsole 2 includes a shoe cover 24, a heel portion 23 is disposed on the left side of the upper surface of the shoe cover 24, a connecting portion 22 is disposed on the right side of the heel portion 23, the connecting portion 22 includes a concave portion 221 and a convex portion 222, a toe portion 21 is disposed on the right side of the connecting portion 22, a flow guiding mechanism 3 is disposed on the side wall of the shoe cover 24, the flow guiding mechanism 3 includes a fish scale portion 31, an arc groove portion 32 is disposed on the outer wall of the fish scale portion 31, a horizontal portion 33 is disposed at the left end of the arc groove portion 32, an auxiliary mechanism 4 is disposed on the upper surface of the shoe cover 24, and the midsole 1, the outsole 2, the flow guiding mechanism 3 and the auxiliary mechanism 4.

In the embodiment, the outsole 2 is made of TPU material, the midsole 1 is made of PU material, in order to prevent rainwater on the ground from easily splashing to the trouser leg edges, the side wall of the shoe cover 24 is provided with the flow guide mechanism 3, and the upper surface of the shoe cover 24 is provided with the auxiliary mechanism 4.

Specifically, referring to fig. 1, the outer wall of the midsole 1 is inclined toward the scale portions 31, the scale portions 31 are arrayed along the side walls of the outsole 2, the upper ends of the scale portions 31 are connected to the bottom of the midsole 1, and the bottom of the horizontal portion 33 and the bottom of the outsole 2 are located on the same horizontal plane.

In this embodiment, in order to enable rainwater to flow into the arc-shaped groove portion 32 from the edge of the midsole 1, the outer wall of the midsole 1 is inclined toward the scale portion 31, and in order to enable rainwater to uniformly drop on the ground, the scale portion 31 is arrayed along the sidewall of the outsole 2, and the bottom of the horizontal portion 33 and the bottom of the outsole 2 are located on the same horizontal plane.

Specifically, referring to fig. 2, the auxiliary mechanism 4 includes a radial column 47, a flow collecting portion 48 is disposed at a convergence center of the radial column 47, the radial column 47 and the flow collecting portion 48 are located on an upper surface of the heel portion 23, an upper surface of the radial column 47 is located above an upper surface of the shoe cover 24, and the flow collecting portion 48 is recessed in the upper surface of the shoe cover 24.

In this embodiment, in order to prevent rainwater in the heel portion 23 from splashing around during walking, the radiation column 47 and the flow collecting portion 48 are located on the upper surface of the heel portion 23, the upper surface of the radiation column 47 is located above the upper surface of the shoe cover 24, and the flow collecting portion 48 is recessed in the upper surface of the shoe cover 24, so that water can flow into the flow collecting portion 48 along the track of the radiation column 47, the movement force of the water is weakened, and the water falls into the ground softly.

Specifically, referring to fig. 2, the right side of the radial column 47 is provided with arc-shaped portions 45, the arc-shaped portions 45 are provided with groove portions 46 at intervals, the height of the arc-shaped portion 45 is the same as the height of the radial column 47, and the arc-shaped portion 45 and the groove portions 46 are located on the upper surface of the connecting portion 22.

In this embodiment, in order to prevent the water from splashing around the connection portion 22, the arc portion 45 is disposed on the right of the radial pillar 47, the groove portions 46 are disposed between the arc portions 45 at intervals, so that the water can flow in the groove portions 46, the height of the arc portion 45 is the same as the height of the radial pillar 47, the arc portion 45 and the groove portions 46 are located on the upper surface of the connection portion 22, so that the arc portion 45 can limit the flow direction of the water in the groove portions 46.

Specifically, referring to fig. 2, a corrugated portion 42 is disposed on the right side of the arc portion 45, the height of the corrugated portion 42 is the same as the height of the arc portion 45, a direction-changing portion 44 and a flow blocking portion 43 are disposed in the corrugated portion 42, the direction-changing portion 44 and the concave portion 221 are located on the same side, the flow blocking portion 43 is close to the convex portion 222, and an arc-shaped notch portion 41 is disposed on the right side of the flow blocking portion 43.

In this embodiment, the water flow speed is gradually reduced by the curved lines of the corrugated portion 42 to prevent the water from splashing, the flow blocking portion 43 and the arc-shaped notch portion 41 are matched with each other to block a part of the water on one side of the convex portion 222 of the toe cap portion 21, and the rest of the water flows into the direction changing portion 44 through the corrugated portion 42.

Specifically, referring to fig. 2, the corrugated portion 42 is located on the upper surface of the toe cap portion 21, the heights of the flow blocking portion 43 and the arc-shaped notch portion 41 are both smaller than the height of the corrugated portion 42, a half ring portion 410 is arranged inside the direction-changing portion 44, a central portion 49 is arranged in the center of the direction-changing portion 44, the direction-changing portion 44 is recessed in the shoe cover 24, the height of the direction-changing portion 44 is greater than the height of the half ring portion 410, and the height of the half ring portion 410 is greater than the height of the central portion 49.

In this embodiment, the direction-changing portion 44 is recessed in the shoe cover 24, the height of the direction-changing portion 44 is greater than that of the half ring portion 410, the height of the half ring portion 410 is greater than that of the central portion 49, and water flowing into the direction-changing portion 44 is weakened layer by layer through the half ring portion 410, so that the water is changed into soft water and then collected in the central portion 49, and further flows into the ground.

The working principle is as follows:

rainwater flows into the arc groove part 32 along the edge of the insole 1 and falls into the ground through the horizontal part 33, in the walking process, water at the position of the heel part 23 is gathered in the flow gathering part 48 along the track of the radial upright post 47 and then returns to the ground, water at the position of the connecting part 22 flows into the ground along the groove part 46, the arc part 45 prevents water from splashing around to wet the trouser legs, the water at one side of the convex part 222 changes the direction of the water through the flow blocking part 43 and the arc groove part 41, so that the water flows to the outer edge of the shoe, the water at one side of the concave part 221 flows into the direction changing part 44, the water is weakened gradually through the semi-ring part 410, the water is gathered at the central part 49, and therefore the phenomenon that the left foot and the right foot take water to the right foot through the shoe on the left foot and the shoe on the right foot.

The above description is only the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the improvement concept of the present invention within the technical scope disclosed in the present invention.

Claims (8)

1. An integrated sole, comprising a mid-sole (1) and an outer sole (2), characterized in that: the utility model discloses a shoe cover, including outer sole (2), outer sole (2) are provided with heel portion (23) on the upper surface left side of shoe cover (24), the right of heel portion (23) is provided with connecting portion (22), connecting portion (22) include concave part (221) and convex part (222), the right of connecting portion (22) is provided with toe portion (21), be provided with water conservancy diversion mechanism (3) on the lateral wall of shoe cover (24), water conservancy diversion mechanism (3) are including fish scale portion (31), be provided with arc slot portion (32) on the outer wall of fish scale portion (31), the left end of arc slot portion (32) is provided with horizontal part (33), the upper surface of shoe cover (24) is provided with complementary unit (4), insole (1), outer sole (2), water conservancy diversion mechanism (3) and complementary unit (4) integrated into one piece.

2. The integrally formed shoe sole of claim 1, wherein: the outer wall of the middle sole (1) inclines towards the fish scale parts (31), the fish scale parts (31) are arrayed along the side wall of the outer sole (2), the upper ends of the fish scale parts (31) are connected with the bottom of the middle sole (1), and the bottom of the horizontal part (33) and the bottom of the outer sole (2) are located on the same horizontal plane.

3. The integrally formed shoe sole of claim 1, wherein: the auxiliary mechanism (4) comprises a radial stand column (47), a flow gathering part (48) is arranged at the convergence center of the radial stand column (47), and the radial stand column (47) and the flow gathering part (48) are located on the upper surface of the heel part (23).

4. The integrally formed shoe sole of claim 3, wherein: the upper surface of the radiation upright post (47) is positioned above the upper surface of the shoe cover (24), and the flow gathering part (48) is sunk on the upper surface of the shoe cover (24).

5. The integrally formed shoe sole of claim 3, wherein: the right side of the radiation upright post (47) is provided with an arc-shaped part (45), groove parts (46) are arranged between the arc-shaped parts (45) at intervals, the height of the arc-shaped part (45) is consistent with that of the radiation upright post (47), and the arc-shaped part (45) and the groove parts (46) are positioned on the upper surface of the connecting part (22).

6. The integrally formed shoe sole of claim 5, wherein: the right side of arc portion (45) is provided with ripple portion (42), the height of ripple portion (42) is unanimous with the height of arc portion (45), be provided with in ripple portion (42) and redirect portion (44) and keep off a class portion (43), redirect portion (44) and concave part (221) are located same side, it is close to convex part (222) to keep off class portion (43), it is provided with arc notch portion (41) to keep off the right of class portion (43).

7. The integrally formed shoe sole of claim 6, wherein: the shoe comprises a shoe head portion (21), and is characterized in that the corrugated portion (42) is located on the upper surface of the shoe head portion (21), the heights of the flow blocking portion (43) and the arc-shaped groove opening portion (41) are both smaller than the height of the corrugated portion (42), a half ring portion (410) is arranged inside the direction-changing portion (44), and a central portion (49) is arranged in the center of the direction-changing portion (44).

8. The integrally formed shoe sole of claim 7, wherein: the redirecting part (44) is sunk in the shoe cover (24), the height of the redirecting part (44) is greater than that of the semi-ring part (410), and the height of the semi-ring part (410) is greater than that of the central part (49).

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