CN113729354A - Exercise memory type energy storage high-elastic sports shoe sole and preparation process thereof - Google Patents

Abstract

The invention discloses a sport memory type energy-storage high-elasticity sport sole and a preparation process thereof, wherein the sport memory type energy-storage high-elasticity sport sole comprises a sole plate, and a rebound structure for carrying out memory rebound assistance on heels of a human body when a user exercises is arranged on the sole plate; the resilience structure comprises a plug board, a resilience piece is arranged on the plug board and comprises a compression spring, the compression spring is a spring made of nickel-titanium memory alloy, a groove for accommodating cavity change during matched movement on the sole plate is provided with an air guide structure for ventilation of the foot and assisting use, and the air guide structure comprises a strip opening communicated with the groove. The invention has the beneficial effects that: adopt the resilience part of modularization combination on the sole board to overall structure is last to carry out memory energy storage and resilience helping hand when the motion, and the auxiliary user alleviates the amount of exercise when striding, breathes in carminative auxiliary structure at resilience in-process design simultaneously, thereby provides the helping hand use for foot when moving, so that the going on of continuous motion.

Description

Exercise memory type energy storage high-elastic sports shoe sole and preparation process thereof

Technical Field

The invention relates to the technical field of shoes, in particular to a sport memory type energy storage high-elasticity sport sole, and particularly relates to a preparation process of the sport memory type energy storage high-elasticity sport sole.

Background

The sole is rather complex in construction and in a broad sense may include all of the materials forming the sole, such as the outsole, midsole and heel. In a narrow sense, only the outsole is said, and the common characteristics of the general sole materials should have the characteristics of wear resistance, water resistance, oil resistance, heat resistance, pressure resistance, impact resistance, good elasticity, easy adaptation to the foot shape, difficult deformation after shaping, heat preservation, easy moisture absorption and the like, and simultaneously should be matched with the midsole, so that the sole has the braking function when the foot is changed during walking, and the sole is not easy to slip and stop. The sole materials are of various types and can be divided into natural base materials and synthetic base materials. The natural bottom materials comprise natural bottom leather, bamboo, wood and the like, and the synthetic bottom materials comprise rubber, plastics, rubber and plastic combined materials, regenerated leather, elastic hardboard and the like.

When the existing sports shoes are used for sports after being worn by users, the sole is relatively stiff, so that the rebound effect is relatively poor, the feet of the users are relatively hard in the process of sports, and the continuous performance of sports fitness is influenced. Therefore, the sport memory type energy storage high-elastic sport sole and the preparation process thereof are provided to improve the problems.

Disclosure of Invention

The invention aims to provide a sports memory type energy storage high-elasticity sports shoe sole and a preparation process thereof.A resilience component which is combined in a modularization mode is adopted on a shoe sole plate, so that memory energy storage and resilience assistance are carried out on the whole structure during sports, a user is assisted in reducing the amount of exercise during striding, and an auxiliary structure for air suction and exhaust is designed in the resilience process, so that assistance is provided for feet during sports, the continuous sports is facilitated, and the problem of poor resilience effect in the background technology is solved.

In order to achieve the purpose, the invention provides the following technical scheme: a sport memory type energy storage high-elastic sport sole comprises a sole plate, wherein a rebound structure for memory rebound assistance on heels of a user during sport is arranged on the sole plate;

the rebound structure comprises an inserting plate assembled on the heel part of the sole plate in a modularized manner, the inserting plate comprises an arc-shaped inserting strip assembled on the heel part of the sole plate in a positioning manner, a bearing sheet is integrally arranged on one side of the arc-shaped inserting strip, a rebound piece for assisting in movement is inserted on the bearing sheet, and a sealing strip for sealing an opening is integrally arranged at one end of the bearing sheet;

the elastic part comprises a round bar used for supporting the whole component, the round bar is an EVA foam cotton strip, a compression spring is sleeved on the round bar and is a spring made of nickel-titanium memory alloy, sealing films for preventing water from invading and corroding are sleeved outside the compression spring and the round bar, the sealing films are PVC waterproof films, protective sleeves with openings at two ends are correspondingly sleeved on the sealing films, sealing sheets are fixedly connected with openings at two ends of the protective sleeves, the protective sleeves and the sealing sheets are both rubber parts, mounting holes are formed in the bearing sheets in a matched mode with the protective sleeves, and the elastic part is inserted into the mounting holes;

the shoe sole plate is correspondingly matched with the resilience structure and is provided with a groove, the groove is sequentially provided with an arc-shaped groove, a pressure groove and a sealing groove for splicing and combining corresponding to the arc-shaped inserting strip, the bearing sheet and the sealing strip from inside to outside, the arc-shaped inserting strip and the arc-shaped groove are correspondingly spliced and matched, the bearing sheet and the pressure groove are correspondingly spliced and matched, the sealing strip and the sealing groove are correspondingly spliced and glued, a clamping groove for clamping the resilience piece is formed in the pressure groove, and the sealing sheet of the resilience piece is correspondingly arranged in the pressure groove;

the shoe sole is characterized in that a groove for changing the containing cavity is formed in the sole plate during the matched movement, an air guide structure used for ventilation of feet and assisting in use is arranged on the groove, the air guide structure comprises a strip opening communicated with the groove, and the strip opening is arranged on the heel portion of the sole plate.

As an alternative of the sport memory type energy storage high-elastic sport sole, the sport memory type energy storage high-elastic sport sole comprises the following components: the sole board sets up the integration board that makes for PU polymer material.

As an alternative of the sport memory type energy storage high-elastic sport sole, the sport memory type energy storage high-elastic sport sole comprises the following components: the picture peg sets up to integrated into one piece's EVA bubble cotton board, the thickness that the thickness of arc cutting is greater than the carrier sheet at least has 1cm, the edge section of sealing strip cooperation sole board sets up to fan-shaped structure, the thickness that the thickness of sealing strip also is greater than the carrier sheet at least has 1cm, just the center that the arc cutting, carrier sheet and sealing strip is located same water flat line.

As an alternative of the sport memory type energy storage high-elastic sport sole, the sport memory type energy storage high-elastic sport sole comprises the following components: one side fixedly connected with of arc cutting is used for the baffle of grafting location, the baffle sets up to the decurrent rubber slab of slope, the recess corresponds the cooperation baffle and has seted up the guide slot, the baffle slides with the guide slot and pegs graft.

As an alternative of the sport memory type energy storage high-elastic sport sole, the sport memory type energy storage high-elastic sport sole comprises the following components: the width of the strip opening is at least 5mm less than the width of the sole plate surface.

As an alternative of the sport memory type energy storage high-elastic sport sole, the sport memory type energy storage high-elastic sport sole comprises the following components: an exhaust pipe used for exhausting outwards is arranged in the groove, and a one-way valve used for limiting air intake is arranged on the exhaust pipe.

As an alternative of the sport memory type energy storage high-elastic sport sole, the sport memory type energy storage high-elastic sport sole comprises the following components: the bottom surface rubberizing that the sole board corresponds the sole has connect the shell fragment that the pressurized was kick-backed when being used for the motion, the shell fragment is provided with the arc structure, the intrados of shell fragment corresponds sole board bottom surface and leaves at least 1mm clearance.

As an alternative of the sport memory type energy storage high-elastic sport sole, the sport memory type energy storage high-elastic sport sole comprises the following components: the bottom surface of the shoe bottom plate corresponding to the heel is glued and connected with a wear-resistant sheet matched with the elastic sheet for use, and the bottom surface of the wear-resistant sheet is provided with anti-skid grains.

The invention also provides a preparation process of the sport memory type energy storage high-elastic sport sole, which comprises the following steps:

s1: processing a sole plate, namely integrally forming the sole plate by adopting a die matched with the sole plate, trimming burrs of the sole plate, and mounting a one-way valve for exhausting outwards on an exhaust pipe in a groove of the sole plate;

s2: assembling the wear-resistant sheet, namely punching and pressing the wear-resistant sheet at the heel of the sole plate and taking out the wear-resistant sheet, arranging anti-skid grains in a groove at the bottom of the wear-resistant sheet, and gluing the non-grooved surface of the wear-resistant sheet at the bottom of the sole plate to finish the assembly;

s3: assembling the elastic sheet, namely integrally forming the elastic sheet by adopting a die matched with the elastic sheet, trimming burrs of the elastic sheet, and correspondingly contacting and gluing the upper end of the elastic sheet on the bottom surface of the sole plate sole part;

s4: processing the inserting plate, namely integrally forming the inserting plate by adopting a die matched with the inserting plate, trimming burrs of the inserting plate, and gluing one side of an arc-shaped inserting strip with a guide plate which is obliquely arranged downwards;

s5: processing and assembling the rebound part, namely sleeving a compression spring on the round bar, coating the compression spring and the round bar with a film to package a sealing film, sleeving a protective sleeve after the sealing film is packaged, gluing sealing sheets at two ends of an opening of the protective sleeve to finish processing the rebound part, taking the rebound part, inserting the rebound part into a mounting hole of the plug board, and finishing the assembly of the rebound part on the plug board;

s6: and (4) assembling, namely inserting the insertion plate with the assembled rebound part into the groove of the sole plate, and gluing and sealing the insertion plate and the opening part of the groove to finish the assembling.

Further, in the step S1, stamping and cutting are adopted for processing the upper strip opening of the sole plate, the sole plate is fixed in advance, and a corresponding template provided with a strip groove is inserted into the groove to be matched with stamping work, so that the strip opening is completed.

Compared with the prior art, the invention has the beneficial effects that: adopt the resilience part of modularization combination on the sole board to overall structure is last to carry out memory energy storage and resilience helping hand when the motion, and the auxiliary user alleviates the amount of exercise when striding, breathes in carminative auxiliary structure at resilience in-process design simultaneously, thereby provides the helping hand use for foot when moving, so that the going on of continuous motion.

Drawings

Fig. 1 is a schematic front view of the present invention.

Figure 2 is a side view of the sole plate of the present invention.

Figure 3 is a schematic view of a partial cross-sectional structure of the sole plate of the present invention.

Fig. 4 is a schematic front view of the resilient structure of the present invention.

FIG. 5 is a schematic side view of the interposer of the present invention.

Fig. 6 is a partial sectional view of the resilient member of the present invention.

In the figure: 1. a sole plate; 2. a groove; 201. an arc-shaped slot; 202. pressing a groove; 203. a card slot; 204. a sealing groove; 205. a guide groove; 3. inserting plates; 301. arc-shaped cuttings; 302. a carrier sheet; 303. mounting holes; 304. a sealing strip; 305. a guide plate; 4. a resilient member; 401. round bars; 402. a compression spring; 403. a sealing film; 404. a protective sleeve; 405. sealing the sheet; 5. strip opening; 6. an exhaust pipe; 7. a spring plate; 8. a wear resistant sheet; 801. and (4) anti-skid lines.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a sport memory type energy storage high-elastic sport sole comprises a sole plate 1, wherein a rebound structure for memory rebound assistance on heels of a user during sport is arranged on the sole plate 1;

the rebound structure comprises an inserting plate 3 assembled on the heel part of the sole plate 1 in a modularized manner, the inserting plate 3 comprises an arc-shaped inserting strip 301 assembled on the heel part of the sole plate 1 in a positioning manner, a bearing sheet 302 is integrally arranged on one side of the arc-shaped inserting strip 301, a rebound piece 4 for assisting in movement is inserted on the bearing sheet 302, and a sealing strip 304 for sealing an opening is integrally arranged at one end of the bearing sheet 302;

the rebound part 4 comprises a round bar 401 used for supporting the whole component, the round bar 401 is set to be an EVA foam cotton sliver, a compression spring 402 is sleeved on the round bar 401, the compression spring 402 is set to be a spring made of nickel-titanium memory alloy, sealing films 403 for preventing water from invading and corroding are sleeved outside the compression spring 402 and the round bar 401, the sealing films 403 are set to be PVC waterproof films, protective sleeves 404 with openings at two ends are correspondingly sleeved on the sealing films 403, sealing sheets 405 are fixedly connected with opening parts at two ends of the protective sleeves 404, the protective sleeves 404 and the sealing sheets 405 are set to be rubber pieces, mounting holes 303 are formed in the bearing sheets 302 in a matched mode with the protective sleeves 404, and the rebound part 4 is inserted into the mounting holes 303;

the inserted rebound part 4 is designed on the inserting plate 3 to form a rebound structure for memory energy storage and rebound assistance when the sole plate 1 moves, the compression spring 402 is subjected to basic installation and support by using a soft round bar 401 so as to prevent the compression spring 402 from being damaged due to excessive bending caused by no support under stress during movement, a sealing film 403, a protective sleeve 404 and a sealing sheet 405 are sleeved outside the compression spring 402, so that the compression spring 402 can be prevented from being corroded and used by cleaning or intrusion of external sundries, and the inserting plate 3 is provided with an installation hole 303, so that the rebound part 4 can be conveniently combined on the inserting plate 3 in a modularized mode for use;

during the motion, the process of striding is that the heel falls to the ground first, the sole of a foot after that, later the heel lifts, repetitive motion strides, the compression spring 402 that the nickel titanium memory alloy was made is used to the process of corresponding striding, compression spring 402 receives the gravity contraction when the heel falls to the ground first, when the heel lifts, utilize compression spring 402 to carry out memory energy storage and resilience helping hand, supplementary heel lifts up for the foot has obvious resilience helping hand in the motion process, the amount of exercise when the auxiliary user alleviates striding, so that the continuous motion goes on.

The shoe sole plate 1 is correspondingly matched with the resilience structure and provided with a groove 2, the groove 2 is sequentially provided with an arc-shaped slot 201, a pressure slot 202 and a sealing slot 204 which are used for splicing and combining corresponding to the arc-shaped inserting strip 301, the bearing sheet 302 and the sealing strip 304 from inside to outside, the arc-shaped inserting strip 301 and the arc-shaped slot 201 are correspondingly spliced and matched, the bearing sheet 302 and the pressure slot 202 are correspondingly spliced and matched, the sealing strip 304 and the sealing slot 204 are correspondingly spliced and glued, the pressure slot 202 is provided with a clamping slot 203 used for clamping and connecting the resilience member 4, and the sealing strip 405 of the resilience member 4 is correspondingly arranged in the pressure slot 202;

the insert plate 3 is an integrally formed EVA foam plate, the thickness of the arc-shaped insert strip 301 is at least 1cm larger than that of the bearing sheet 302, the edge section of the sealing strip 304 matched with the sole plate 1 is arranged to be a fan-shaped structure, the thickness of the sealing strip 304 is also at least 1cm larger than that of the bearing sheet 302, and the centers of the arc-shaped insert strip 301, the bearing sheet 302 and the sealing strip 304 are positioned on the same horizontal line;

one side of the arc-shaped inserting strip 301 is fixedly connected with a guide plate 305 for inserting and positioning, the guide plate 305 is a rubber plate inclining downwards, the groove 2 is correspondingly matched with the guide plate 305 and provided with a guide groove 205, and the guide plate 305 is inserted in the guide groove 205 in a sliding manner;

set up corresponding recess 2 through corresponding resilience structure on sole board 1 and come to make things convenient for the combined use, use arc cutting 301 that has baffle 305 and the arc wall 201 that has guide slot 205 to fix a position and peg graft, so that 3 direction installations of picture peg are used, and design draw-in groove 203 in indent 202, the joint combination of resilience piece 4 can be pinpointed, and use sealing strip 304 and the sealed veneer of seal groove 204, seal in recess 2, accomplish the modularization combination of resilience structure on sole board 1 fast, and utilize seal structure can block the invasion of external debris, improve the use quality.

As a further improvement of the embodiment, the groove 2 for changing the containing cavity is provided with an air guide structure for the ventilation of the foot and the assisting use when the sole plate 1 moves in a matching way, the air guide structure comprises a strip opening 5 communicated with the groove 2, and the strip opening 5 is arranged on the heel part of the sole plate 1.

Further, the width of the strip opening 5 is at least 5mm less than the width of the surface of the sole plate 1.

Further, an exhaust pipe 6 for exhausting air outwards is arranged in the groove 2, and a one-way valve for limiting air intake is arranged on the exhaust pipe 6.

During movement, along with the stepping, the cavity is flattened and restored after the groove 2 is stressed; during the flattening, the cavity gas accessible of recess 2 is discharged through 6 blast pipes that have the check valve, and strip mouth 5 also produces the exhaust action, and when resilience resumes, because the check valve restriction, strip mouth 5 is breathed in and is held the intracavity for strip mouth 5 that is located in the shoes breathes in and carminative action, provides the air that flows for the foot in the shoes chamber, thereby provides the helping hand use for foot when moving, so that continuous motion goes on.

As a further improvement of the embodiment, the bottom surface of the sole plate 1 corresponding to the sole is glued and connected with the elastic sheet 7 which is used for being pressed and rebounded during movement, the elastic sheet 7 is provided with an arc structure, and the inner arc surface of the elastic sheet 7 corresponds to the bottom surface of the sole plate and is provided with a gap of at least 1 mm.

Furthermore, the bottom surface of the sole plate 1 corresponding to the heel is glued and connected with a wear-resistant sheet 8 matched with the elastic sheet 7 for use, and the bottom surface of the wear-resistant sheet 8 is provided with anti-skid grains 801.

Adopt the shell fragment 7 of arc structure on the bottom surface of sole board 1 correspondence sole, during the striding motion, because the sole falls to the ground to make the degree of bending atress of shell fragment 7 warp and reduce, when the sole lifted up, shell fragment 7 (shell fragment 7 sets up to carbon spring steel) carries out elastic recovery, the lifting of the supplementary sole of upwards application of force, make the sole position have obvious resilience helping hand in the motion process, the auxiliary user alleviates the amount of exercise when striding, so that going on of continuous motion, the setting that does not cooperate shell fragment 7 simultaneously makes sole board 1 bottom antiskid effect not enough, wear-resisting piece 8 that the setting has anti-skidding line 801 is on sole board 1 corresponds the bottom surface of heel, the two cooperation is used, the result of use when further improving the motion.

In order to facilitate the rapid processing, manufacturing and use of the sole plate 1, the sole plate 1 is an integrated plate made of PU high polymer materials.

A preparation process of a sport memory type energy storage high-elastic sport sole comprises the following steps:

s1: processing a sole plate, namely integrally forming the sole plate by adopting a die matched with the sole plate, trimming burrs of the sole plate, and mounting a one-way valve for exhausting outwards on an exhaust pipe in a groove of the sole plate;

s2: assembling the wear-resistant sheet, namely punching and pressing the wear-resistant sheet at the heel of the sole plate and taking out the wear-resistant sheet, arranging anti-skid grains in a groove at the bottom of the wear-resistant sheet, and gluing the non-grooved surface of the wear-resistant sheet at the bottom of the sole plate to finish the assembly;

s3: assembling the elastic sheet, namely integrally forming the elastic sheet by adopting a die matched with the elastic sheet, trimming burrs of the elastic sheet, and correspondingly contacting and gluing the upper end of the elastic sheet on the bottom surface of the sole plate sole part;

s4: processing the inserting plate, namely integrally forming the inserting plate by adopting a die matched with the inserting plate, trimming burrs of the inserting plate, and gluing one side of an arc-shaped inserting strip with a guide plate which is obliquely arranged downwards;

s5: processing and assembling the rebound part, namely sleeving a compression spring on the round bar, coating the compression spring and the round bar with a film to package a sealing film, sleeving a protective sleeve after the sealing film is packaged, gluing sealing sheets at two ends of an opening of the protective sleeve to finish processing the rebound part, taking the rebound part, inserting the rebound part into a mounting hole of the plug board, and finishing the assembly of the rebound part on the plug board;

s6: and (4) assembling, namely inserting the insertion plate with the assembled rebound part into the groove of the sole plate, and gluing and sealing the insertion plate and the opening part of the groove to finish the assembling.

Further, in the step S1, stamping and cutting are adopted for processing the upper strip opening of the sole plate, the sole plate is fixed in advance, and a corresponding template provided with a strip groove is inserted into the groove to be matched with stamping work, so that the strip opening is completed.

When in specific use: after the sole plate 1 is machined, a user wears shoes to perform striding movement, when heels fall to the ground, the containing cavity of the groove 2 is stressed and compressed to be flattened, the compression spring 402 is contracted under the action of gravity in water, gas in the containing cavity of the groove 2 can be discharged through the exhaust pipe 6 with the one-way valve, the strip opening 5 also generates an exhaust action, and then the bending degree of the elastic sheet 7 is stressed and deformed to be reduced after soles fall to the ground; when lifting the step, the heel lifts up earlier, utilize compression spring 402 to remember energy storage and resilience helping hand, supplementary heel lifts up, make the heel have obvious resilience helping hand in the motion process, the auxiliary user alleviates the amount of exercise when striding, simultaneously the appearance chamber resilience of recess 2 resumes, because the check valve restriction, strip mouth 5 breathes in and holds the intracavity, make strip mouth 5 that is located in the shoes breathe in and carminative action, provide flowing air for the foot in the shoes chamber, thereby foot when for the motion provides the helping hand use, the sole lifts up after that, shell fragment 7 carries out elastic recovery, the lifting of sole is assisted to the application of force that makes progress, make the sole position have obvious resilience helping hand in the motion process, thereby overall structure is on the motion when memory energy storage and resilience helping hand, the auxiliary user alleviates the amount of exercise when striding, so that the continuation of motion goes on.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a high-elastic sports shoe sole of motion memory type energy storage, is including sole board (1), its characterized in that: the sole plate (1) is provided with a rebound structure for memory rebound assistance on the heel of a human body when a user moves;

the rebound structure comprises a plug board (3) assembled on the heel part of the sole plate (1) in a modularized manner, the plug board (3) comprises an arc-shaped inserting strip (301) assembled on the heel part of the sole plate (1) in a positioning manner, a bearing sheet (302) is integrally arranged on one side of the arc-shaped inserting strip (301), a rebound piece (4) for assisting in movement is inserted on the bearing sheet (302), and a sealing strip (304) for sealing an opening is integrally arranged at one end of the bearing sheet (302);

the resilient member (4) comprises a round strip (401) for supporting use as a one-piece member, said round strip (401) being arranged as an EVA tampon, a compression spring (402) is sleeved on the round bar (401), the compression spring (402) is a spring made of nickel-titanium memory alloy, the compression spring (402) and the round bar (401) are sleeved with a sealing film (403) for preventing water from invading and corroding, the sealing membrane (403) is set to be a PVC waterproof membrane, a protective sleeve (404) with two open ends is correspondingly sleeved on the sealing membrane (403), sealing pieces (405) are fixedly connected to opening parts at two ends of the protective sleeve (404), the protective sleeve (404) and the sealing pieces (405) are both rubber pieces, the bearing sheet (302) is provided with a mounting hole (303) in a matched manner with the protective sleeve (404), and the rebound piece (4) is inserted into the mounting hole (303);

the shoe sole plate (1) is provided with a groove (2) corresponding to a matched resilience structure, the groove (2) is sequentially provided with an arc-shaped groove (201), a pressure groove (202) and a sealing groove (204) for splicing and combining from inside to outside, the arc-shaped groove (301) and the arc-shaped groove (201) are correspondingly spliced and matched, the load-bearing sheet (302) and the pressure groove (202) are correspondingly spliced and matched, the sealing strip (304) and the sealing groove (204) are correspondingly spliced and glued, a clamping groove (203) for clamping a resilience piece (4) is formed in the pressure groove (202), and a sealing piece (405) of the resilience piece (4) is correspondingly arranged in the pressure groove (202);

the shoe sole is characterized in that a groove (2) which changes in the containing cavity when the shoe sole plate (1) moves in a matched mode is provided with an air guide structure which is used for ventilation of feet and used for assisting in power, the air guide structure comprises a strip opening (5) communicated with the groove (2), and the strip opening (5) is arranged on the heel part of the shoe sole plate (1).

2. The sports memory type energy storage high-elastic sports shoe sole according to claim 1, characterized in that: the shoe sole plate (1) is an integrated plate made of PU high polymer materials.

3. The sports memory type energy storage high-elastic sports shoe sole according to claim 2, characterized in that: flashboard (3) set up to integrated into one piece's EVA bubble cotton board, the thickness that the thickness of arc cutting (301) is greater than carrier sheet (302) at least has 1cm, the edge section of sealing strip (304) cooperation sole board (1) sets up to fan-shaped structure, the thickness that the thickness of sealing strip (304) is also greater than carrier sheet (302) at least has 1cm, just the center that arc cutting (301), carrier sheet (302) and sealing strip (304) is located same water flat line.

4. The sports memory type energy storage high-elastic sports shoe sole according to claim 3, characterized in that: one side fixedly connected with of arc cutting (301) is used for baffle (305) of grafting location, baffle (305) set up to the decurrent rubber slab of slope, recess (2) correspond cooperation baffle (305) and have seted up guide slot (205), baffle (305) and guide slot (205) slip grafting.

5. The sports memory type energy storage high-elasticity sports shoe sole according to claim 4, characterized in that: the width of the strip opening (5) is at least 5mm smaller than the width of the surface of the sole plate (1).

6. The sports memory type energy storage high-elastic sports shoe sole according to claim 5, characterized in that: an exhaust pipe (6) used for exhausting outwards is arranged in the groove (2), and a one-way valve used for limiting air intake is arranged on the exhaust pipe (6).

7. The sports memory type energy storage high-elastic sports shoe sole according to claim 6, characterized in that: the sole board (1) is glued the bottom surface that corresponds the sole and is connect shell fragment (7) that pressurized resilience when being used for the motion, shell fragment (7) are provided with the arc structure, the intrados of shell fragment (7) corresponds sole board bottom surface and leaves at least 1mm clearance.

8. The sports memory type energy storage high-elastic sports shoe sole according to claim 7, characterized in that: the sole plate (1) is glued on the bottom surface corresponding to the heel and is connected with a wear-resistant sheet (8) used in cooperation with the elastic sheet (7), and anti-skid grains (801) are arranged on the bottom surface of the wear-resistant sheet (8).

9. The preparation process of the sport memory type energy-storage high-elasticity sport shoe sole according to claim 1 is characterized by comprising the following steps:

s1: processing a sole plate, namely integrally forming the sole plate by adopting a die matched with the sole plate, trimming burrs of the sole plate, and mounting a one-way valve for exhausting outwards on an exhaust pipe in a groove of the sole plate;

s2: assembling the wear-resistant sheet, namely punching and pressing the wear-resistant sheet at the heel of the sole plate and taking out the wear-resistant sheet, arranging anti-skid grains in a groove at the bottom of the wear-resistant sheet, and gluing the non-grooved surface of the wear-resistant sheet at the bottom of the sole plate to finish the assembly;

s3: assembling the elastic sheet, namely integrally forming the elastic sheet by adopting a die matched with the elastic sheet, trimming burrs of the elastic sheet, and correspondingly contacting and gluing the upper end of the elastic sheet on the bottom surface of the sole plate sole part;

s4: processing the inserting plate, namely integrally forming the inserting plate by adopting a die matched with the inserting plate, trimming burrs of the inserting plate, and gluing one side of an arc-shaped inserting strip with a guide plate which is obliquely arranged downwards;

s5: processing and assembling the rebound part, namely sleeving a compression spring on the round bar, coating the compression spring and the round bar with a film to package a sealing film, sleeving a protective sleeve after the sealing film is packaged, gluing sealing sheets at two ends of an opening of the protective sleeve to finish processing the rebound part, taking the rebound part, inserting the rebound part into a mounting hole of the plug board, and finishing the assembly of the rebound part on the plug board;

s6: and (4) assembling, namely inserting the insertion plate with the assembled rebound part into the groove of the sole plate, and gluing and sealing the insertion plate and the opening part of the groove to finish the assembling.

10. The preparation process of the sport memory type energy-storage high-elasticity sport sole according to claim 9, characterized in that: and S1, stamping and cutting the upper strip opening of the sole plate, fixing the sole plate in advance, inserting a template provided with strip grooves correspondingly into the grooves to be matched with stamping work, and finishing the opening of the strip opening.

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