CN108685269B - Professional shoe pad for riding bicycle - Google Patents
Professional shoe pad for riding bicycle Download PDFInfo
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- CN108685269B CN108685269B CN201810512466.8A CN201810512466A CN108685269B CN 108685269 B CN108685269 B CN 108685269B CN 201810512466 A CN201810512466 A CN 201810512466A CN 108685269 B CN108685269 B CN 108685269B
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B17/00—Insoles for insertion, e.g. footbeds or inlays, for attachment to the shoe after the upper has been joined
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B17/00—Insoles for insertion, e.g. footbeds or inlays, for attachment to the shoe after the upper has been joined
- A43B17/003—Insoles for insertion, e.g. footbeds or inlays, for attachment to the shoe after the upper has been joined characterised by the material
- A43B17/006—Insoles for insertion, e.g. footbeds or inlays, for attachment to the shoe after the upper has been joined characterised by the material multilayered
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Abstract
The invention discloses a riding special insole which comprises an insole body, wherein the insole body sequentially comprises a nanometer bamboo charcoal fiber layer, a first polyurethane foam layer, a second polyurethane foam layer and a third polyurethane foam layer from top to bottom; from the front end to the rear end of the insole body, the nanometer bamboo charcoal fiber layer is sequentially provided with a toe massage bulge, a front sole massage bulge, a sole center massage bulge, an arch massage bulge and a heel massage bulge corresponding to the sole of a human body, and an upward-jacking toe massage convex body, a front sole massage convex body, a sole center massage convex body, an arch massage convex body and a heel massage convex body are sequentially arranged between the nanometer bamboo charcoal fiber layer and the first polyurethane cotton layer; the third polyurethane foam layer is corresponding to partial deletion of shoe-pad body front end, and the downside of third polyurethane foam layer rear end is equipped with the holding chamber, and this holding intracavity is inlayed and is had the heel shock pad. The invention has strong shock absorption and foot protection effects, good ventilation and deodorization effects, obvious shock absorption and support effects and the function of promoting blood circulation.
Description
Technical Field
The invention relates to an insole, in particular to a riding special insole.
Background
The cycling exercise has the advantages of no time limit and no speed limit. The bicycle can not only reduce weight, but also make the stature uniform. Since cycling is a sport that requires a large amount of oxygen, it can also strengthen cardiac function, while also preventing hypertension, sometimes more effectively than drugs. The blood vessels can be compressed by riding the bicycle, so that the blood circulation is accelerated, the brain intakes more oxygen, and the brain feels clearer by inhaling a large amount of fresh air.
The sport experts point out that due to the special requirements of cycling, the arms and the trunk mostly work statically, the two legs mostly work dynamically, when blood is redistributed, the blood supply of the lower limbs is large, and the change of the heart rate is different according to the speed of pedaling and the fluctuation of the terrain. The inside of the body is in urgent need of supplementing nutrients and discharging waste materials, so that the heartbeat is increased by 2-3 times compared with usual heartbeat. By repeating the exercise, the myocardium becomes developed, the heart becomes large, the myocardium contracts forcefully, and the elasticity of the vessel wall is enhanced. Thereby increasing the lung ventilation volume, increasing the lung capacity and improving the respiratory function of the lung.
Cycling is a very good exercise, however, not only does it involve vigorous riding, but also takes care of the correct riding posture and wearing without causing injury to the exercise. A common cloth shoe for sports is mostly tied with shoelaces, and the sole is large and soft, so that the cloth shoe is comfortable, shockproof and stable in walking, but when the cloth shoe is used for riding, the sole is too wide and is easy to be clamped to a crank and a rear lower fork, and the treading efficiency is reduced due to the too soft sole. In addition, as sandals and slippers are not covered enough, not only the shoes may be injured when falling down or sudden braking, but also the soles of the feet are easy to shake during stepping, and the soles are soft, so that the shoes are not suitable for riding. The shoe is suitable for professional riding, the shoe body is narrow, the possibility of clamping the crank and the rear lower fork is reduced, and the shoe can be tightly attached to the sole of a foot so as to reduce the shaking of the sole of the foot during treading. Professional cycling shoes also emphasize a stiff sole to improve pedaling efficiency, but relatively, the harder the sole the more professional the shoe, the more awkward it is to walk.
The insoles are common daily articles, and can be divided into health-care insoles, functional insoles and conventional insoles according to the function. The structure of the traditional insole is formed by sewing multiple layers of cloth or pressing multiple layers of leather, has certain softness and buffering and damping effects, and basically meets the requirement of ordinary walking shoes. However, in riding this particular sport, the conventional insole has the following disadvantages: firstly, the traditional insole has poor shock absorption and foot protection effects, the impact force on the bottom of the half sole and the heel of the foot is large during exercise, the traditional insole is difficult to absorb the impact force on the foot bones during walking and exercise, and the foot bones, the ankle joints and the knee joints are difficult to protect; secondly, the traditional insole has poor air permeability, is easy to breed bacteria and fungi, and is easy to cause foot problems such as dermatophytosis and the like; thirdly, the sole of the cycling professional is narrower than other footwear because of the avoidance of the crank and back yoke when riding and the insole of the cycling professional also requires to be relatively stiff, but conventional insoles are not designed significantly in this respect.
Disclosure of Invention
The technical problem to be solved by the invention is to provide a riding special insole which has strong shock absorption and foot protection effects, good ventilation and deodorization effects, obvious shock absorption and support effects and blood circulation promotion effect, and aims to overcome the defects of the prior art.
In order to solve the technical problems, the technical scheme of the invention is as follows: a riding special insole comprises an insole body, wherein the insole body sequentially comprises a nanometer bamboo charcoal fiber layer, a first polyurethane foam layer, a second polyurethane foam layer and a third polyurethane foam layer from top to bottom; the insole comprises a insole body, a first polyurethane cotton layer, a nanometer bamboo charcoal fiber layer, a second polyurethane cotton layer, a first polyurethane layer, a second polyurethane layer and a third polyurethane layer, wherein the nanometer bamboo charcoal fiber layer is sequentially provided with a toe massage bulge, a front sole massage bulge, a sole center massage bulge, an arch massage bulge and a heel massage bulge corresponding to the sole of a human body from the front end to the rear end of the insole body; the third polyurethane foam layer is corresponding to partial deletion of shoe-pad body front end, the downside of the third polyurethane foam layer rear end is equipped with the holding chamber, and this holding intracavity is inlayed and is had the heel shock pad, the shape of heel shock pad is circular.
As a further elaboration of the invention:
preferably, the insole comprises an insole half sole, an insole middle waist and an insole heel in sequence from the front end to the rear end of the insole body, wherein the insole middle waist and the insole heel are provided with outer edges which are tilted upwards; the third polyurethane foam layer is corresponding to the middle waist part and the half sole part of the insole at the outer side of the sole.
Preferably, the thickness of the nano bamboo charcoal fiber layer is 0.3-0.8 mm, the thickness of the first polyurethane foam layer is 3.0-7.5 mm, the thickness of the second polyurethane foam layer is 4.5-8.5 mm, the thickness of the third polyurethane foam layer is 6.0-10.5 mm, and the thickness of the heel shock pad is 5.0-12.5 mm.
Preferably, the thickness of the nano bamboo charcoal fiber layer is 0.4-0.6 mm, the thickness of the first polyurethane foam layer is 4.0-6.5 mm, the thickness of the second polyurethane foam layer is 5.0-8.0 mm, the thickness of the third polyurethane foam layer is 7.0-9.5 mm, and the thickness of the heel shock pad is 5.5-11.5 mm.
Preferably, the toe massage convex bodies are PU polyurethane toe massage convex bodies, and the thickness of the toe massage convex bodies is 3.5-8.0 mm; the half sole massage convex body is a PU polyurethane half sole massage convex body, and the thickness of the half sole massage convex body is 4.5-9.0 mm; the arch massage convex body is made of PU polyurethane and has the thickness of 5.5-10.0 mm; the arch massage convex body is made of PU polyurethane and has the thickness of 12.0-18.5 mm; the heel massage convex body is a PU polyurethane heel massage convex body, and the thickness is 6.0-15.0 mm.
Preferably, the toe massage convex bodies are PU polyurethane toe massage convex bodies, and the thickness of the toe massage convex bodies is 4.0-7.0 mm; the half sole massage convex body is a PU polyurethane half sole massage convex body, and the thickness of the half sole massage convex body is 5.0-8.5 mm; the arch massage convex bodies are PU polyurethane arch massage convex bodies, and the thickness of the arch massage convex bodies is 6.0-10.0 mm; the arch massage convex body is made of PU polyurethane and has the thickness of 13.0-16.5 mm; the heel massage convex body is a PU polyurethane heel massage convex body, and the thickness is 8.0-14.0 mm.
Preferably, the first polyurethane foam layer plays a role in shock absorption in cycling, and comprises the following components in parts by weight: 80-90 parts of polyurethane, 1.5-3 parts of a coupling agent and 5-10 parts of a toughening agent, wherein the coupling agent is a mixture of isopropyl tri (dioctyl pyrophosphato acyloxy) ethylene titanate, isopropyl tri (dioctyl phosphato acyloxy) titanate, isopropyl tri (dodecyl benzene sulfonic acid) titanate and tetraisopropyl di (dioctyl phosphato acyloxy) titanate, and the toughening agent is a maleic anhydride grafted high polymer elastomer and is selected from one or more of POE-g-MAH, EPDM-g-MAH, TPU-g-MAH, SEBS-g-MAH and NBR-g-MAH.
Preferably, the second polyurethane foam layer is a high-elasticity polyurethane foam layer and comprises a pure polyurethane layer and a polyurethane soft foam layer containing medicinal powder, the polyurethane soft foam layer is a polyurethane foaming material, and the medicinal powder is one or more of fishbone powder, rape pollen and soybean meal;
the polyurethane soft foam layer is prepared by reacting and foaming the following raw materials: 100 parts of soft-foam polyether polyol, 10-35 parts of diisocyanate, 15-30 parts of toluene diisocyanate, 10-25 parts of 4, 4' -diphenylmethane diisocyanate, 5-25 parts of antioxidant, 5-20 parts of water, 1.5-3.5 parts of silicone oil and 0.6-2.0 parts of cross-linking agent;
the preparation method of the polyurethane soft foam layer comprises the following steps: adding the soft foam polyether polyol and the polyisocyanate in corresponding parts by weight into a mixer, uniformly stirring, heating to 35-38 ℃, adding the other raw materials in corresponding parts into the mixer, stirring at a high speed for 6-8 seconds, pouring into a mold, foaming and curing to obtain a corresponding polyurethane soft foam layer;
the hydroxyl value of the soft-foam polyether polyol is 50-90 mgKOH/g, the molecular weight is 5000-6000, and the antioxidant is prepared from tetra (4-hydroxy-3, 5-di-tert-butylphenyl propionic acid) pentaerythritol and 1, 1, 3-tris (2-methyl-4-hydroxy-5-tert-butylphenyl) butane according to a certain proportion;
the silicone oil is polyether modified silicone oil;
the cross-linking agent is a mixture of ethylenediamine, triethylene glycol, trimethylolpropane and dipropylene glycol.
Preferably, the third polyurethane foam layer plays a role in supporting the arch and the heel in cycling and is formed by foaming palm tree bark fiber powder, polyether polyol, polyisocyanate and auxiliary raw materials;
the third polyurethane foam layer comprises the following raw materials: 100 parts of polyether polyol, 20-30 parts of palm tree bark fiber powder, 30-55 parts of polyisocyanate, 2-15 parts of water, 0.5-2.5 parts of silicone oil, 0.5-2 parts of a catalyst, 0.5-0.8 part of a foaming agent and 0.8-1.5 parts of a silane coupling agent;
the preparation method of the third polyurethane foam layer comprises the following steps: adding the polyether polyol, palm tree bark fiber powder, the silane coupling agent and the polyisocyanate in corresponding parts by weight into a mixer, uniformly stirring, heating to 35-38 ℃, adding the other raw materials in corresponding parts into the mixer, stirring at a high speed for 6-8 seconds, pouring into a mold, foaming and curing to obtain a corresponding third polyurethane foam layer;
the catalyst is selected from zinc chloride, ferric chloride, antimony trichloride, potassium acetate, potassium hexanoate, potassium octanoate, lead octanoate, zinc octanoate, calcium octanoate, cobalt octanoate, magnesium octanoate, zinc acetylacetonate, bismuth nitrate, alkali metal carboxylates, tin dioctoate, tin diethylhexanoate, dibutyltin dilaurate, triethylamine, tetramethylbutanediamine, tetramethylhexanediamine, pentamethyldiethylenetriamine, pentamethyldipropylenetriamine, dimethylbenzylamine, dimethylcyclohexylamine, diethylenetriamine, triethylenediamine, N-methylmorpholine, N-ethylmorpholine, N-cyclohexylmorpholine, N, one or a mixture of two or more of N-dimethylpiperazine, N-diethylpiperazine, bis (dimethylaminoethyl) ether, bis (diethylaminoethyl) ether, N-dimethylpiperazine, hexahydrotriazine and quaternary ammonium salts in any proportion;
the blowing agent comprises cyclopentane;
the silane coupling agent is prepared by mixing triethoxy hydrosilane, lauric acid diethanolamide, octadecyl amine acetate and fatty alcohol-polyoxyethylene ether.
The invention has the beneficial effects that: firstly, because the lower side of the rear end of the third polyurethane foam layer is provided with the containing cavity, and the heel shock pad is embedded in the containing cavity, the insole has good elasticity, can effectively absorb impact force generated to foot bones in the riding process, protects foot skeletons, ankles and knee joints, and has excellent shock absorption and foot protection effects; secondly, the nano bamboo charcoal fiber layer of the insole has the characteristics of moisture absorption, ventilation, bacteriostasis, antibiosis, environmental protection, good ventilation and the functions of mildew prevention, perspiration and the like; thirdly, because the arch part is provided with the arch massage convex body to form a middle waist hard support to be attached to the arch, the middle waist and the heel of the insole are both provided with the outer edges which are tilted upwards, and the third polyurethane foam layer is lost corresponding to the middle waist part and the half sole part of the insole at the outer side of the sole, so that the impact force on the outer side of the sole in the riding process can be effectively absorbed, and the foot is well protected; a toe massage convex body, a half sole massage convex body, a sole center massage convex body, an arch of foot massage convex body and a heel massage convex body are sequentially arranged between the nano bamboo charcoal fiber layer and the first polyurethane cotton layer, so that each acupuncture point of the foot can be massaged, the blood circulation of the sole is effectively promoted, and the health care and physical therapy effects are achieved; fifthly, the first polyurethane foam layer plays a role in shock absorption in riding, the second polyurethane foam layer is a high-elasticity polyurethane foam layer and can effectively buffer feet in the riding process, and the third polyurethane foam layer plays a role in supporting arches and heels in riding, so that the feet are effectively supported, and the requirement of riding on relative hardness of professional insoles is met; sixth, the special preparation method of the first polyurethane foam layer does not need catalyst and foaming agent, the second polyurethane foam layer is added with fishbone powder, rape pollen and soybean powder, the third polyurethane foam layer is added with palm tree bark fiber powder, the three polyurethane foam layers are all prepared by special preparation methods different from the existing preparation methods, the requirements of the insole on narrower riding specialty and comfort in use are met, the medicinal powder is added to enhance the refreshing performance of the insole, accidents caused by non-concentrated energy in the process of strenuous exercise and competition are avoided, the resistance can be enhanced by adding the fishbone powder, the rape pollen and the soybean powder, and the palm tree bark fiber powder ensures that the insole has better supporting performance.
Drawings
FIG. 1 is a schematic view of a dispersion structure according to the present invention.
FIG. 2 is a second schematic view of the dispersion structure of the present invention.
In the figure: 1. a nanometer bamboo charcoal fiber layer; 2. a first polyurethane foam layer; 3. a second polyurethane foam layer; 4. a third polyurethane foam layer; 5. the toes are massaged; 6. the half sole is provided with a massage bulge; 7. the sole center is massaged and raised; 8. arch massage bumps; 9. the heel massage is convex; 10. a heel cushion; 11. the half sole of the insole; 12. insole middle waist; 13. the heel of the insole.
Detailed Description
The structural and operational principles of the present invention are explained in further detail below with reference to the accompanying drawings.
As shown in fig. 1 and 2, the present invention is a professional cycling insole, which comprises an insole body, wherein the insole body sequentially comprises a nanometer bamboo charcoal fiber layer 1, a first polyurethane foam layer 2, a second polyurethane foam layer 3 and a third polyurethane foam layer 4 from top to bottom; the nano bamboo charcoal fiber layer 1 is sequentially provided with a toe massage bulge 5, a front sole massage bulge 6, a sole center massage bulge 7, an arch massage bulge 8 and a heel massage bulge 9 corresponding to the sole of a human body from the front end to the rear end of the insole body, a toe massage convex body, a front sole massage convex body, a sole center massage convex body, an arch massage convex body and a heel massage convex body are sequentially arranged between the nano bamboo charcoal fiber layer 1 and the first polyurethane cotton layer 2, and the toe massage convex body, the front sole massage convex body, the arch massage convex body and the heel massage convex body upwards jack up the nano bamboo charcoal fiber layer 1 to form corresponding bulges; the sponge layer of third polyurethane foam 4 is corresponding to the partial disappearance of shoe-pad body front end, the downside of the sponge layer of third polyurethane foam 4 is equipped with the holding chamber, and this holding intracavity is inlayed and is had heel shock pad 10, heel shock pad 10's shape is circular.
The nano bamboo charcoal fiber layer 1, the first polyurethane foam layer 2, the second polyurethane foam layer 3 and the third polyurethane foam layer 4 are integrally pressed into a mold, and after the mold is pressed, the toe massage convex body, the half sole massage convex body, the foot center massage convex body, the foot arch massage convex body and the heel massage convex body are respectively ejected out of the nano bamboo charcoal fiber layer 1. The nano bamboo charcoal fiber layer 1 has the characteristics of moisture absorption, ventilation, bacteriostasis, antibiosis, warmness in winter and coolness in summer, and environmental protection; the first polyurethane foam layer 2, the second polyurethane foam layer 3 and the third polyurethane foam layer 4 have the functions of environmental protection, easy degradation, mildew prevention, antibiosis, ventilation, deodorization and perspiration, and the three polyurethane foam layers are all mixed with black granular active carbon, so that the ventilation function is stronger. The heel cushion 10 adopts a dragon cushion, and has an excellent shock absorption function.
As shown in fig. 1 and 2, the insole sequentially comprises an insole half sole 11, an insole middle waist 12 and an insole heel 13 from the front end to the rear end of an insole body, wherein the insole middle waist 12 and the insole heel 13 are both provided with outer edges which are tilted upwards; the third polyurethane foam layer 4 is partially missing corresponding to the insole middle waist 12 at the outer side of the sole.
As shown in fig. 1 and 2, the thickness of the nano bamboo charcoal fiber layer 1 is 0.3-0.8 mm, the thickness of the first polyurethane foam layer 2 is 3.0-7.5 mm, the thickness of the second polyurethane foam layer 3 is 4.5-8.5 mm, the thickness of the third polyurethane foam layer 4 is 6.0-10.5 mm, and the thickness of the heel cushion 10 is 5.0-12.5 mm.
Preferably, the thickness of the bamboo charcoal fiber layer 1 is 0.4-0.6 mm, the thickness of the first polyurethane foam layer 2 is 4.0-6.5 mm, the thickness of the second polyurethane foam layer 3 is 5.0-8.0 mm, the thickness of the third polyurethane foam layer 4 is 7.0-9.5 mm, and the thickness of the heel shock pad 10 is 5.5-11.5 mm.
As shown in fig. 1 and 2, the toe massage convex bodies are PU polyurethane toe massage convex bodies, and the thickness of the toe massage convex bodies is 3.5-8.0 mm; the half sole massage convex body is a PU polyurethane half sole massage convex body, and the thickness of the half sole massage convex body is 4.5-9.0 mm; the arch massage convex body is made of PU polyurethane and has the thickness of 5.5-10.0 mm; the arch massage convex body is made of PU polyurethane and has the thickness of 12.0-18.5 mm; the heel massage convex body is a PU polyurethane heel massage convex body, and the thickness is 6.0-15.0 mm.
Preferably, the toe massage convex bodies are PU polyurethane toe massage convex bodies, and the thickness of the toe massage convex bodies is 4.0-7.0 mm; the half sole massage convex body is a PU polyurethane half sole massage convex body, and the thickness of the half sole massage convex body is 5.0-8.5 mm; the arch massage convex bodies are PU polyurethane arch massage convex bodies, and the thickness of the arch massage convex bodies is 6.0-10.0 mm; the arch massage convex body is made of PU polyurethane and has the thickness of 13.0-16.5 mm; the heel massage convex body is a PU polyurethane heel massage convex body, and the thickness is 8.0-14.0 mm.
Specific examples of materials and fabrication processes are as follows.
Example 1:
the first polyurethane foam layer 2 plays a role in shock absorption in riding, and comprises the following components in parts by weight: 80 parts of polyurethane, 1.5 parts of a coupling agent and 5 parts of a toughening agent, wherein the coupling agent is a mixture of isopropyl tri (dioctyl pyrophosphato acyloxy) ethylene titanate, isopropyl tri (dioctyl phosphato acyloxy) titanate, isopropyl tri (dodecyl benzene sulfonic acid) titanate and tetraisopropyl di (dioctyl phosphato acyloxy) titanate, and the toughening agent is a maleic anhydride grafted high polymer elastomer and is selected from one or more of POE-g-MAH, EPDM-g-MAH, TPU-g-MAH, SEBS-g-MAH and NBR-g-MAH.
The second polyurethane foam layer 3 is a high-elasticity polyurethane foam layer and comprises a pure polyurethane layer and a polyurethane foam layer containing medicinal powder, wherein the polyurethane foam layer is made of a polyurethane foam material, and the medicinal powder is one or more of fishbone powder, rape pollen and soybean meal;
the polyurethane soft foam layer is prepared by reacting and foaming the following raw materials: 100 parts of flexible foam polyether polyol, 10 parts of diisocyanate, 15 parts of toluene diisocyanate, 10 parts of 4, 4' -diphenylmethane diisocyanate, 5 parts of antioxidant, 5 parts of water, 1.5 parts of silicone oil and 0.6 part of cross-linking agent;
the preparation method of the polyurethane soft foam layer comprises the following steps: adding the soft foam polyether polyol and the polyisocyanate in corresponding parts by weight into a mixer, uniformly stirring, heating to 35-38 ℃, adding the other raw materials in corresponding parts into the mixer, stirring at a high speed for 6-8 seconds, pouring into a mold, foaming and curing to obtain a corresponding polyurethane soft foam layer;
the hydroxyl value of the soft-foam polyether polyol is 50-90 mgKOH/g, the molecular weight is 5000-6000, and the antioxidant is prepared from tetra (4-hydroxy-3, 5-di-tert-butylphenyl propionic acid) pentaerythritol and 1, 1, 3-tris (2-methyl-4-hydroxy-5-tert-butylphenyl) butane according to a certain proportion;
the silicone oil is polyether modified silicone oil;
the cross-linking agent is a mixture of ethylenediamine, triethylene glycol, trimethylolpropane and dipropylene glycol.
The third polyurethane foam layer 4 plays a role in supporting the arch and the heel in the riding specialty and is formed by foaming palm tree bark fiber powder, polyether polyol, polyisocyanate and auxiliary raw materials;
the third polyurethane foam layer 4 comprises the following raw materials: 100 parts of polyether polyol, 20 parts of palm tree bark fiber powder, 30 parts of polyisocyanate, 2-15 parts of water, 0.5 part of silicone oil, 0.5 part of catalyst, 0.5 part of foaming agent and 0.8 part of silane coupling agent;
the preparation method of the third polyurethane foam layer 4 comprises the following steps: adding the polyether polyol, palm tree bark fiber powder, the silane coupling agent and the polyisocyanate in corresponding parts by weight into a mixer, uniformly stirring, heating to 35-38 ℃, adding the other raw materials in corresponding parts into the mixer, stirring at a high speed for 6-8 seconds, pouring into a mold, foaming and curing to obtain a corresponding third polyurethane foam layer 4;
the catalyst is selected from zinc chloride, ferric chloride, antimony trichloride, potassium acetate, potassium hexanoate, potassium octanoate, lead octanoate, zinc octanoate, calcium octanoate, cobalt octanoate, magnesium octanoate, zinc acetylacetonate, bismuth nitrate, alkali metal carboxylates, tin dioctoate, tin diethylhexanoate, dibutyltin dilaurate, triethylamine, tetramethylbutanediamine, tetramethylhexanediamine, pentamethyldiethylenetriamine, pentamethyldipropylenetriamine, dimethylbenzylamine, dimethylcyclohexylamine, diethylenetriamine, triethylenediamine, N-methylmorpholine, N-ethylmorpholine, N-cyclohexylmorpholine, N, one or a mixture of two or more of N-dimethylpiperazine, N-diethylpiperazine, bis (dimethylaminoethyl) ether, bis (diethylaminoethyl) ether, N-dimethylpiperazine, hexahydrotriazine and quaternary ammonium salts in any proportion;
the blowing agent comprises cyclopentane;
the silane coupling agent is prepared by mixing triethoxy hydrosilane, lauric acid diethanolamide, octadecyl amine acetate and fatty alcohol-polyoxyethylene ether.
Other structural components of the insole are made from existing materials by conventional methods.
Example 2
The first polyurethane foam layer 2 plays a role in shock absorption in riding, and comprises the following components in parts by weight: 90 parts of polyurethane, 3 parts of a coupling agent and 10 parts of a toughening agent, wherein the coupling agent is a mixture of isopropyl tri (dioctyl pyrophosphato acyloxy) ethylene titanate, isopropyl tri (dioctyl phosphato acyloxy) titanate, isopropyl tri (dodecyl benzene sulfonic acid) titanate and tetraisopropyl di (dioctyl phosphato acyloxy) titanate, and the toughening agent is a maleic anhydride grafted high polymer elastomer and is selected from one or more of POE-g-MAH, EPDM-g-MAH, TPU-g-MAH, SEBS-g-MAH and NBR-g-MAH.
The second polyurethane foam layer 3 is a high-elasticity polyurethane foam layer and comprises a pure polyurethane layer and a polyurethane foam layer containing medicinal powder, wherein the polyurethane foam layer is made of a polyurethane foam material, and the medicinal powder is one or more of fishbone powder, rape pollen and soybean meal;
the polyurethane soft foam layer is prepared by reacting and foaming the following raw materials: 100 parts of flexible foam polyether polyol, 35 parts of diisocyanate, 30 parts of toluene diisocyanate, 25 parts of 4, 4' -diphenylmethane diisocyanate, 25 parts of antioxidant, 20 parts of water, 3.5 parts of silicone oil and 2.0 parts of cross-linking agent;
the preparation method of the polyurethane soft foam layer comprises the following steps: adding the soft foam polyether polyol and the polyisocyanate in corresponding parts by weight into a mixer, uniformly stirring, heating to 35-38 ℃, adding the other raw materials in corresponding parts into the mixer, stirring at a high speed for 6-8 seconds, pouring into a mold, foaming and curing to obtain a corresponding polyurethane soft foam layer;
the hydroxyl value of the soft-foam polyether polyol is 50-90 mgKOH/g, the molecular weight is 5000-6000, and the antioxidant is prepared from tetra (4-hydroxy-3, 5-di-tert-butylphenyl propionic acid) pentaerythritol and 1, 1, 3-tris (2-methyl-4-hydroxy-5-tert-butylphenyl) butane according to a certain proportion;
the silicone oil is polyether modified silicone oil;
the cross-linking agent is a mixture of ethylenediamine, triethylene glycol, trimethylolpropane and dipropylene glycol.
The third polyurethane foam layer 4 plays a role in supporting the arch and the heel in the riding specialty and is formed by foaming palm tree bark fiber powder, polyether polyol, polyisocyanate and auxiliary raw materials;
the third polyurethane foam layer 4 comprises the following raw materials: 100 parts of polyether polyol, 30 parts of palm tree bark fiber powder, 55 parts of polyisocyanate, 15 parts of water, 2.5 parts of silicone oil, 2 parts of a catalyst, 0.8 part of a foaming agent and 1.5 parts of a silane coupling agent;
the preparation method of the third polyurethane foam layer 4 comprises the following steps: adding the polyether polyol, palm tree bark fiber powder, the silane coupling agent and the polyisocyanate in corresponding parts by weight into a mixer, uniformly stirring, heating to 35-38 ℃, adding the other raw materials in corresponding parts into the mixer, stirring at a high speed for 6-8 seconds, pouring into a mold, foaming and curing to obtain a corresponding third polyurethane foam layer 4;
the catalyst is selected from zinc chloride, ferric chloride, antimony trichloride, potassium acetate, potassium hexanoate, potassium octanoate, lead octanoate, zinc octanoate, calcium octanoate, cobalt octanoate, magnesium octanoate, zinc acetylacetonate, bismuth nitrate, alkali metal carboxylates, tin dioctoate, tin diethylhexanoate, dibutyltin dilaurate, triethylamine, tetramethylbutanediamine, tetramethylhexanediamine, pentamethyldiethylenetriamine, pentamethyldipropylenetriamine, dimethylbenzylamine, dimethylcyclohexylamine, diethylenetriamine, triethylenediamine, N-methylmorpholine, N-ethylmorpholine, N-cyclohexylmorpholine, N, one or a mixture of two or more of N-dimethylpiperazine, N-diethylpiperazine, bis (dimethylaminoethyl) ether, bis (diethylaminoethyl) ether, N-dimethylpiperazine, hexahydrotriazine and quaternary ammonium salts in any proportion;
the blowing agent comprises cyclopentane;
the silane coupling agent is prepared by mixing triethoxy hydrosilane, lauric acid diethanolamide, octadecyl amine acetate and fatty alcohol-polyoxyethylene ether.
Other structural components of the insole are made from existing materials by conventional methods.
Example 3
The first polyurethane foam layer 2 plays a role in shock absorption in riding, and comprises the following components in parts by weight: 85 parts of polyurethane, 2.0 parts of coupling agent and 7 parts of toughening agent, wherein the coupling agent is a mixture of isopropyl tri (dioctyl pyrophosphato acyloxy) ethylene titanate, isopropyl tri (dioctyl phosphato acyloxy) titanate, isopropyl tri (dodecyl benzene sulfonic acid) titanate and tetraisopropyl di (dioctyl phosphato acyloxy) titanate, and the toughening agent is maleic anhydride grafted high polymer elastomer and is selected from one or more of POE-g-MAH, EPDM-g-MAH, TPU-g-MAH, SEBS-g-MAH and NBR-g-MAH.
Other structural components of the insole are made from existing materials by conventional methods.
Example 4
The second polyurethane foam layer 3 is a high-elasticity polyurethane foam layer and comprises a pure polyurethane layer and a polyurethane foam layer containing medicinal powder, wherein the polyurethane foam layer is made of a polyurethane foam material, and the medicinal powder is one or more of fishbone powder, rape pollen and soybean meal;
the polyurethane soft foam layer is prepared by reacting and foaming the following raw materials: 100 parts of flexible foam polyether polyol, 30 parts of diisocyanate, 22 parts of toluene diisocyanate, 19 parts of 4, 4' -diphenylmethane diisocyanate, 20 parts of antioxidant, 20 parts of water, 3 parts of silicone oil and 1.5 parts of cross-linking agent;
the preparation method of the polyurethane soft foam layer comprises the following steps: adding the soft foam polyether polyol and the polyisocyanate in corresponding parts by weight into a mixer, uniformly stirring, heating to 35-38 ℃, adding the other raw materials in corresponding parts into the mixer, stirring at a high speed for 6-8 seconds, pouring into a mold, foaming and curing to obtain a corresponding polyurethane soft foam layer;
the hydroxyl value of the soft-foam polyether polyol is 50-90 mgKOH/g, the molecular weight is 5000-6000, and the antioxidant is prepared from tetra (4-hydroxy-3, 5-di-tert-butylphenyl propionic acid) pentaerythritol and 1, 1, 3-tris (2-methyl-4-hydroxy-5-tert-butylphenyl) butane according to a certain proportion;
the silicone oil is polyether modified silicone oil;
the cross-linking agent is a mixture of ethylenediamine, triethylene glycol, trimethylolpropane and dipropylene glycol.
Other structural components of the insole are made from existing materials by conventional methods.
Example 5
The third polyurethane foam layer 4 plays a role in supporting the arch and the heel in the riding specialty and is formed by foaming palm tree bark fiber powder, polyether polyol, polyisocyanate and auxiliary raw materials;
the third polyurethane foam layer 4 comprises the following raw materials: 100 parts of polyether polyol, 26 parts of palm tree bark fiber powder, 45 parts of polyisocyanate, 10 parts of water, 2 parts of silicone oil, 1.8 parts of catalyst, 0.7 part of foaming agent and 1.1 parts of silane coupling agent;
the preparation method of the third polyurethane foam layer 4 comprises the following steps: adding the polyether polyol, palm tree bark fiber powder, the silane coupling agent and the polyisocyanate in corresponding parts by weight into a mixer, uniformly stirring, heating to 35-38 ℃, adding the other raw materials in corresponding parts into the mixer, stirring at a high speed for 6-8 seconds, pouring into a mold, foaming and curing to obtain a corresponding third polyurethane foam layer 4;
the catalyst is selected from zinc chloride, ferric chloride, antimony trichloride, potassium acetate, potassium hexanoate, potassium octanoate, lead octanoate, zinc octanoate, calcium octanoate, cobalt octanoate, magnesium octanoate, zinc acetylacetonate, bismuth nitrate, alkali metal carboxylates, tin dioctoate, tin diethylhexanoate, dibutyltin dilaurate, triethylamine, tetramethylbutanediamine, tetramethylhexanediamine, pentamethyldiethylenetriamine, pentamethyldipropylenetriamine, dimethylbenzylamine, dimethylcyclohexylamine, diethylenetriamine, triethylenediamine, N-methylmorpholine, N-ethylmorpholine, N-cyclohexylmorpholine, N, one or a mixture of two or more of N-dimethylpiperazine, N-diethylpiperazine, bis (dimethylaminoethyl) ether, bis (diethylaminoethyl) ether, N-dimethylpiperazine, hexahydrotriazine and quaternary ammonium salts in any proportion;
the blowing agent comprises cyclopentane;
the silane coupling agent is prepared by mixing triethoxy hydrosilane, lauric acid diethanolamide, octadecyl amine acetate and fatty alcohol-polyoxyethylene ether.
Other structural components of the insole are made from existing materials by conventional methods.
Comparing the insoles prepared in examples 1-5 with the insoles prepared by the conventional method by using the conventional materials, the insoles prepared in examples 1-5 have strong shock absorption and foot protection effects, good air permeability and deodorization effects and blood circulation promotion effects, and the performance of the insoles is obviously superior to that of the insoles prepared by the conventional method, particularly the insoles prepared in examples 1 and 2, and the insoles have the advantages of highest comfort level, strongest air permeability, good elasticity, strongest shock absorption and foot protection capabilities, good vibration absorption and support effects and most obvious effect of promoting metabolism and enhancing human body resistance. The shock absorbing effect of the embodiment 3 is obvious, and the elastic performance and the supporting effect are slightly poorer than those of the embodiments 1 and 2; the elastic performance of the example 4 is obvious, and the vibration absorbing effect and the supporting effect are slightly inferior to those of the examples 1 and 2; the supporting effect of example 5 is obvious, and the vibration damping effect and the elastic performance are slightly inferior compared with those of examples 1 and 2.
The above description is only a preferred embodiment of the present invention, and all the minor modifications, equivalent changes and modifications made to the above embodiment according to the technical solution of the present invention are within the scope of the technical solution of the present invention.
Claims (6)
1. A professional shoe-pad rides bicycle, includes the shoe-pad body, its characterized in that: the insole body sequentially comprises a nanometer bamboo charcoal fiber layer, a first polyurethane foam layer, a second polyurethane foam layer and a third polyurethane foam layer from top to bottom; the insole comprises a insole body, a first polyurethane cotton layer, a nanometer bamboo charcoal fiber layer, a second polyurethane cotton layer, a first polyurethane layer, a second polyurethane layer and a third polyurethane layer, wherein the nanometer bamboo charcoal fiber layer is sequentially provided with a toe massage bulge, a front sole massage bulge, a sole center massage bulge, an arch massage bulge and a heel massage bulge corresponding to the sole of a human body from the front end to the rear end of the insole body; the third polyurethane foam layer is partially lost corresponding to the front end of the insole body, an accommodating cavity is formed in the lower side of the rear end of the third polyurethane foam layer, a heel shock pad is embedded in the accommodating cavity, and the heel shock pad is circular;
the first polyurethane foam layer plays a role in shock absorption in riding, and comprises the following components in parts by weight: 80-90 parts of polyurethane, 1.5-3 parts of a coupling agent and 5-10 parts of a toughening agent, wherein the coupling agent is a mixture of isopropyl tri (dioctyl pyrophosphato acyloxy) ethylene titanate, isopropyl tri (dioctyl phosphato acyloxy) titanate, isopropyl tri (dodecyl benzene sulfonic acid) titanate and tetraisopropyl di (dioctyl phosphato acyloxy) titanate, and the toughening agent is a maleic anhydride grafted high polymer elastomer and is selected from one or more of POE-g-MAH, EPDM-g-MAH, TPU-g-MAH, SEBS-g-MAH and NBR-g-MAH;
the second polyurethane foam layer is a high-elasticity polyurethane foam layer and comprises a pure polyurethane layer and a polyurethane foam layer containing medicinal powder, wherein the polyurethane foam layer is made of a polyurethane foam material, and the medicinal powder is one or more of fishbone powder, rape pollen and soybean meal;
the polyurethane soft foam layer is prepared by reacting and foaming the following raw materials: 100 parts of soft-foam polyether polyol, 10-35 parts of diisocyanate, 15-30 parts of toluene diisocyanate, 10-25 parts of 4, 4' -diphenylmethane diisocyanate, 5-25 parts of antioxidant, 5-20 parts of water, 1.5-3.5 parts of silicone oil and 0.6-2.0 parts of cross-linking agent;
the preparation method of the polyurethane soft foam layer comprises the following steps: adding the soft foam polyether polyol and the polyisocyanate in corresponding parts by weight into a mixer, uniformly stirring, heating to 35-38 ℃, adding the other raw materials in corresponding parts into the mixer, stirring at a high speed for 6-8 seconds, pouring into a mold, foaming and curing to obtain a corresponding polyurethane soft foam layer;
the hydroxyl value of the soft-foam polyether polyol is 50-90 mgKOH/g, the molecular weight is 5000-6000, and the antioxidant is prepared from tetra (4-hydroxy-3, 5-di-tert-butylphenyl propionic acid) pentaerythritol and 1, 1, 3-tris (2-methyl-4-hydroxy-5-tert-butylphenyl) butane according to a certain proportion;
the silicone oil is polyether modified silicone oil;
the cross-linking agent is a mixture of ethylenediamine, triethylene glycol, trimethylolpropane and dipropylene glycol;
the third polyurethane foam layer plays a role in supporting the arch and the heel in riding, and is formed by foaming palm tree bark fiber powder, polyether polyol, polyisocyanate and auxiliary raw materials;
the third polyurethane foam layer comprises the following raw materials: 100 parts of polyether polyol, 20-30 parts of palm tree bark fiber powder, 30-55 parts of polyisocyanate, 2-15 parts of water, 0.5-2.5 parts of silicone oil, 0.5-2 parts of a catalyst, 0.5-0.8 part of a foaming agent and 0.8-1.5 parts of a silane coupling agent;
the preparation method of the third polyurethane foam layer comprises the following steps: adding the polyether polyol, palm tree bark fiber powder, the silane coupling agent and the polyisocyanate in corresponding parts by weight into a mixer, uniformly stirring, heating to 35-38 ℃, adding the other raw materials in corresponding parts into the mixer, stirring at a high speed for 6-8 seconds, pouring into a mold, foaming and curing to obtain a corresponding third polyurethane foam layer;
the catalyst is selected from zinc chloride, ferric chloride, antimony trichloride, potassium acetate, potassium hexanoate, potassium octanoate, lead octanoate, zinc octanoate, calcium octanoate, cobalt octanoate, magnesium octanoate, zinc acetylacetonate, bismuth nitrate, alkali metal carboxylates, tin dioctoate, tin diethylhexanoate, dibutyltin dilaurate, triethylamine, tetramethylbutanediamine, tetramethylhexanediamine, pentamethyldiethylenetriamine, pentamethyldipropylenetriamine, dimethylbenzylamine, dimethylcyclohexylamine, diethylenetriamine, triethylenediamine, N-methylmorpholine, N-ethylmorpholine, N-cyclohexylmorpholine, N, one or a mixture of two or more of N-dimethylpiperazine, N-diethylpiperazine, bis (dimethylaminoethyl) ether, bis (diethylaminoethyl) ether, N-dimethylpiperazine, hexahydrotriazine and quaternary ammonium salts in any proportion;
the blowing agent comprises cyclopentane;
the silane coupling agent is prepared by mixing triethoxy hydrosilane, lauric acid diethanolamide, octadecyl amine acetate and fatty alcohol-polyoxyethylene ether.
2. The specialized insole for cycling according to claim 1, wherein: the insole comprises an insole half sole, an insole middle waist and an insole heel in sequence from the front end to the rear end of an insole body, wherein the insole middle waist and the insole heel are provided with outer edges which are tilted upwards; the third polyurethane foam layer is corresponding to the middle waist part and the half sole part of the insole at the outer side of the sole.
3. The specialized insole for cycling according to claim 1, wherein: the thickness of the nanometer bamboo charcoal fiber layer is 0.3-0.8 mm, the thickness of the first polyurethane foam layer is 3.0-7.5 mm, the thickness of the second polyurethane foam layer is 4.5-8.5 mm, the thickness of the third polyurethane foam layer is 6.0-10.5 mm, and the thickness of the heel shock pad is 5.0-12.5 mm.
4. A cycling professional insole according to claim 3, characterised in that: the thickness of the nanometer bamboo charcoal fiber layer is 0.4-0.6 mm, the thickness of the first polyurethane foam layer is 4.0-6.5 mm, the thickness of the second polyurethane foam layer is 5.0-8.0 mm, the thickness of the third polyurethane foam layer is 7.0-9.5 mm, and the thickness of the heel shock pad is 5.5-11.5 mm.
5. The specialized insole for cycling according to claim 1, wherein: the toe massage convex bodies are PU toe massage convex bodies, and the thickness of the toe massage convex bodies is 3.5-8.0 mm; the half sole massage convex body is a PU polyurethane half sole massage convex body, and the thickness of the half sole massage convex body is 4.5-9.0 mm; the arch massage convex body is made of PU polyurethane and has the thickness of 5.5-10.0 mm; the arch massage convex body is made of PU polyurethane and has the thickness of 12.0-18.5 mm; the heel massage convex body is a PU polyurethane heel massage convex body, and the thickness is 6.0-15.0 mm.
6. A cycling professional insole according to claim 5, characterised in that: the toe massage convex bodies are PU toe massage convex bodies, and the thickness of the toe massage convex bodies is 4.0-7.0 mm; the half sole massage convex body is a PU polyurethane half sole massage convex body, and the thickness of the half sole massage convex body is 5.0-8.5 mm; the arch massage convex bodies are PU polyurethane arch massage convex bodies, and the thickness of the arch massage convex bodies is 6.0-10.0 mm; the arch massage convex body is made of PU polyurethane and has the thickness of 13.0-16.5 mm; the heel massage convex body is a PU polyurethane heel massage convex body, and the thickness is 8.0-14.0 mm.
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USD903268S1 (en) | 2019-02-06 | 2020-12-01 | S. C. Johnson & Son, Inc. | Insole |
USD906658S1 (en) | 2019-02-19 | 2021-01-05 | S. C. Johnson & Son, Inc. | Insole |
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