CN111635627A - Meyer sedge sports insole and manufacturing method thereof - Google Patents

Abstract

The invention relates to a Meyer sedge sports insole and a manufacturing method thereof, the Meyer sedge sports insole is prepared by grinding Meyer sedge into powder, mixing 5-15 parts by weight of Meyer sedge powder with 30-60 parts by weight of polyurethane foam material powder, adding 5-15 parts by weight of polyether glycol, uniformly stirring, and then placing in high-temperature steam for steaming and expanding. The insole has simple production process, good elasticity, good antibacterial, deodorant and air permeability, and can maintain antibacterial effect of herba Caryopteridis Incanae for a long time due to the coating of the sponge powder, and solve the technical problem of ineffective antibacterial effect of the existing herba Caryopteridis Incanae insole after long-term use or multiple water washing.

Description

Meyer sedge sports insole and manufacturing method thereof

Technical Field

The invention belongs to the field of insoles, and particularly relates to a carex meyeriana sports insole and a manufacturing method thereof.

Background

Wula grass, also called wula sedge, is a carex plant of the sedge family, and mainly grows in the northeast Changbai mountain of China and in the south of Waxingan Ling. Wula grass has the functions of removing odor and odor, clearing and activating the channels and collaterals, eliminating fatigue, improving blood microcirculation, improving immunity, keeping warm and resisting cold, and is called northeast three treasures together with ginseng and marten. The carex meyeriana leaves are grey green, slender and soft, the fibers are tough and not easy to break, people can weave grass shoes or insoles by using carex meyeriana for a long time, and the insoles made of the carex meyeriana have the advantages of foot moistening, health preserving, blood circulation promoting, body building, warm in winter and cool in summer, air permeability and sweat releasing, sterilization and deodorization, dry prevention and disease removal, and have unique effects on foot sweat, foot cold, foot odor and beriberi. However, the existing carex meyeriana insoles are formed by directly weaving carex meyeriana and then filling the carex meyeriana between two layers of cloth and simply sewing, and the carex meyeriana insoles are thin, thick and hard, lack of flexibility and elasticity, have poor comfort and are limited in the field of leather cloth shoes when being used, and have the problems of deformation, breakage and the like when being put into sports shoes for use.

In order to solve the problem of poor comfort of the existing carex meyeriana insoles, Chinese patent CN105615131A discloses a production method of a warm-keeping antibacterial insole based on carex meyeriana composite non-woven fabric, wherein the insole uses the non-woven fabric made of carex meyeriana fibers in insole products, and compared with the insole made of carex meyeriana raw materials, the flexibility and the comfort of the insole are greatly improved. However, the production process of the insole is complicated, the production cost is high, and the Meyer sedge is added into the insole in the form of non-woven fabric, so that the bacteriostatic and antibacterial effects of the insole after long-time use or multiple times of water washing are obviously reduced, and the antibacterial effect cannot be achieved; in addition, the insole is easily deformed, has no elasticity, and is not suitable for sports shoes.

The main difference between the sport insole and the common insole is that the sport insole has good elasticity. The existing sports insole is mainly compounded by multiple layers of elastic foam, and the sports insole used for the high-quality shoes can consider the effects of ventilation, sterilization and the like; however, the air permeability of the existing sports insole is mainly realized by arranging the air holes, the sterilization effect is mainly realized by arranging the air-permeable antibacterial fabric on the surface layer or filling the medicine bag in the insole, the duration time of the antibacterial effect is short, and the insole loses the antibacterial effect after long-time use or multiple times of water washing. In addition, although the elastic foam can keep warm, the soles of the feet are easy to generate heat and sweat during exercise, so that the insoles are wet, and phenomena of foot burning, beriberi and foot odor occur.

Disclosure of Invention

In view of the above technical problems, an object of the present invention is to provide a wula sedge sports insole, which is prepared by pulverizing wula sedge into powder and mixing the powder with polyurethane foam powder, and the insole is similar to the reinforced concrete principle, wherein wula sedge plant fiber powder forms a super-elastic framework, and sponge powder wraps wula sedge fiber powder like cement, so as to achieve the purpose of combining the two, the insole has sufficient elasticity, and the wula sedge powder can release the efficacy, so that the insole has the advantages of sterilization, odor removal, good air permeability and good dehumidification performance; in addition, the Meyer sedge can continuously maintain the antibacterial effect for a long time due to the coating of the sponge body powder, and the technical problem that the antibacterial effect of the traditional Meyer sedge insole is invalid after long-term use or multiple times of water washing is solved.

In order to realize the purpose, the invention is realized by adopting the following technical scheme:

a carex meyeriana sports insole is prepared by crushing carex meyeriana into powder, mixing 5-15 parts by weight of carex meyeriana powder with 30-60 parts by weight of polyurethane foam material powder, adding 5-15 parts by weight of polyether polyol, uniformly stirring, and then placing in steam for steaming and expanding.

Preferably, the carex meyeriana sports insole is also added with mung bean hull powder and rose powder, the total weight of the mung bean hull powder and/or the rose powder is less than 4% of the total weight of the raw materials, and the mung bean hull powder is added to achieve an anti-inflammatory effect; in addition, the rose pollen has the effect of beautifying and can play a skin care effect on feet.

Preferably, the carex meyeriana sports insole is added with toner, the addition amount of the toner is 0.1-0.25 part by weight, and the color of the insole can be improved after the toner is added, so that the insole is more attractive.

Preferably, the Wula grass sports insole is provided with a mesh fabric layer on the upper surface and a knitted fabric layer on the lower surface.

Preferably, the polyurethane foam material powder is 40 to 50 parts by weight; 5-12 parts of Meyer sedge powder; 8-10 parts of polyether polyol.

As a further preferred aspect of the present invention, the polyurethane foam material is a polyurethane soft foam material with an open-cell structure, and includes polyurethane sponge and regenerated sponge.

As a further preferred aspect of the present invention, the polyurethane foam material powder is 40 parts by weight; 8-12 parts of Meyer sedge powder; 8 parts of polyether polyol.

As a further preferred aspect of the present invention, the mesh number of the powder of the carex meyeriana powder and the polyurethane foam is more than 40 mesh.

In a further preferred embodiment of the present invention, the toner is added in an amount of 0.128 parts by weight, the toner is yellow or green in color, and the ratio of the yellow toner to the green toner is 1: 10-15.

The invention also aims to provide a manufacturing method of the carex meyeriana sports insole, which specifically comprises the following steps:

step S1, respectively crushing the carex meyeriana and the polyurethane foam material into fine powder;

step S2, mixing 5-15 parts by weight of Meyer sedge powder and 30-60 parts by weight of polyurethane foam material powder and fully stirring;

step S3, adding 5-15 parts by weight of polyether polyol, and uniformly stirring again;

step S4, putting the stirred mixture into a steaming barrel, and steaming for at least 10 minutes by using steam;

step S5, cutting the steamed foaming material into a designed coiled material with standard thickness by using a slicer;

step S6, compounding a mesh fabric layer on the coiled material and compounding a knitted fabric layer on the lower side;

step S7, cutting the materials, namely cutting the rectangular sheet materials with the area larger than that of a pair of insoles by a punch for standby;

step S8, profiling, namely, performing compression molding on the spare sheet by using an insole die;

and step S9, punching the shoe material formed by pressing into the needed shoe pad size by using cutting dies with different sizes.

The invention has the advantages and beneficial effects that:

(1) the carex meyeriana sports insole provided by the invention breaks through the traditional mode of manufacturing the insole by using the carex meyeriana, is prepared by mixing and foaming the smashed carex meyeriana and the powder of the polyurethane foam material, has simple preparation process and low production cost, has the temperature of not higher than 100 ℃, has unchanged shape, not only has the efficacy of the carex meyeriana, but also has the elasticity of the sports insole, can increase the contact area with the human body after the carex meyeriana is smashed, and fully exerts the benefits of the carex meyeriana on the human body.

(2) The insole manufactured by the invention has the same principle as reinforced concrete, the carex meyeriana plant fiber powder forms a super-elastic framework, the sponge body powder wraps the carex meyeriana fiber powder like cement, the aim of combining the carex meyeriana plant fiber powder and the cement is achieved, the insole has high elasticity, is better than a common polyurethane sports insole, can release the effect, has sterilization and odor removal effects and is particularly good in air permeability and dehumidification performance; in addition, the Meyer sedge can continuously maintain the antibacterial effect for a long time due to the coating of the sponge body powder, and the technical problem that the antibacterial effect disappears after the existing Meyer sedge insole is used for a long time or washed for many times is solved.

(3) The insole manufactured by the invention can directly utilize the waste sponge leftover materials, and the leftover materials are crushed and then are secondarily processed with the carex meyeriana powder, so that the production cost can be greatly reduced, and the secondarily processed polyurethane belongs to modified polyurethane, so that the insole has better elasticity; in addition, the antibacterial effect of the insole can be durable under the combined action of the modified polyurethane and the carex meyeriana powder, the antibacterial effect of the insole on escherichia coli (gram negative bacteria), staphylococcus aureus (gram positive bacteria) and candida albicans (fungi) after 6 months of use can still reach more than 99% through the identification of international SGS standard passing authority, the result is completely opposite to the result that the antibacterial effect of the insole after the carex meyeriana is crushed is short in duration and conventional reasoning, the antibacterial effect of the insole after the carex meyeriana is crushed is increased, meanwhile, the duration of the antibacterial effect is long, and the slow release effect is considered to be achieved after the carex meyeriana powder is coated by polyurethane after the insole is mixed with the polyurethane.

(4) The air permeability and the moisture absorption of the insole manufactured by the invention are incomparable with those of the existing Meyer sedge insole and sports insole, after the adult men who easily sweat use the insole to continuously move for 12 hours, the water content of the Meyer sedge sports insole is only 6-8 percent, and the existing ordinary insole basically reaches about 20 percent, so the Meyer sedge sports insole can avoid foot odor and foot sweat, and greatly reduce the incidence rate of dermatophytosis.

(5) Compared with the existing carex meyeriana insoles, the carex meyeriana plant fiber powder and the modified polyurethane are mixed, the surface of the carex meyeriana plant fiber powder and the modified polyurethane are provided with the breathable net surface, and the soles of the feet can be directly contacted with the carex meyeriana.

(6) The invention adopts the mesh cloth with extremely high air permeability and moisture absorption, can ensure that the skin can fully contact the carex meyeriana powder, and transmits the optimal effect of nourishing and protecting feet, which is not possessed by any insole; and the leftover bits and pieces of discarded sponge are chooseed for use to the material, and this is also waste recycling, and not only environmental protection but also practicality, this application smashes the reorganization with the discarded sponge, and such material is more flexible than the polyurethane material, and the effect is better more obvious, and this also is the scientific application that lets the discarded object be higher than original parent material under the environmental protection condition.

(7) The invention provides a novel insoles, which is characterized in that the insoles are added with Meyer sedge plant fiber powder, the innovation is that the original products are fully upgraded, and the new products are ecological and environment-friendly, are human-oriented and are upgraded.

Detailed Description

The present invention is further illustrated by the following examples, but the scope of the present invention is not limited thereto, and modifications to the technical solutions of the present invention by those skilled in the art should be within the scope of the present invention.

Example 1

A manufacturing method of a carex meyeriana sports insole specifically comprises the following steps:

step S1, respectively crushing the carex meyeriana and the polyurethane foam material into fine powder, wherein the polyurethane foam material adopts waste scraps produced when an existing bra processing factory processes a sponge pad in a bra, and the mesh number of the carex meyeriana powder and the polyurethane foam material powder is more than 40 meshes;

step S2, mixing and fully stirring 1kg of Meyer sedge powder and 5kg of polyurethane foam material powder; adding the toner and stirring again; wherein 15g of green toner is added, and 1g of yellow toner is added;

step S3, adding 1kg of polyether polyol, and uniformly stirring again;

step S4, putting the stirred mixture into a cylindrical steaming barrel, steaming for 15 minutes by using steam, and steaming to obtain cylindrical foaming substances;

step S5, uniformly cutting the steamed foaming material into a designed coiled material with standard thickness by using a circular slicer;

step S6, compounding a mesh fabric layer on the coiled material and compounding a knitted fabric layer on the lower side;

step S7, cutting the materials, namely cutting the rectangular sheet materials with the area larger than that of a pair of insoles by a punch for standby;

step S8, profiling, namely performing high-temperature (190-;

and step S9, punching the shoe material formed by pressing into the needed shoe pad size by using cutting dies with different sizes.

Example 2

A manufacturing method of a carex meyeriana sports insole specifically comprises the following steps: referring to example 1, it is different from example 1 in that the amount of the wula sedge powder added is 1.5kg and steaming is performed for 20 minutes with steam.

Example 3

A manufacturing method of a carex meyeriana sports insole specifically comprises the following steps: referring to example 1, it is different from example 1 in that the amount of the carex meyeriana powder added is 0.5kg, the amount of the urethane foam powder added is 4kg, the amount of the polyether polyol added is 0.5kg, and steaming is performed for 15 minutes with steam.

Example 4

A manufacturing method of a carex meyeriana sports insole specifically comprises the following steps: referring to example 1, it is different from example 1 in that the amount of the carex meyeriana powder added is 0.5kg, the amount of the urethane foam powder added is 5kg, the amount of the polyether polyol added is 0.8kg, and steaming is performed with steam for 20 minutes.

Example 5

A manufacturing method of a carex meyeriana sports insole specifically comprises the following steps: referring to example 1, it is different from example 1 in that the amount of the carex meyeriana powder added is 1.2kg, the amount of the urethane foam powder added is 5kg, the amount of the polyether polyol added is 1kg, and steaming is performed with steam for 30 minutes.

Comparative example 1

A manufacturing method of a carex meyeriana sports insole specifically comprises the following steps: referring to example 1, it is different from example 1 in that the amount of the carex meyeriana powder added is 0.5kg, the amount of the urethane foam powder added is 8kg, the amount of the polyether polyol added is 1.5kg, and steaming is performed with steam for 30 minutes.

Comparative example 2

A manufacturing method of a carex meyeriana sports insole specifically comprises the following steps: referring to example 1, it is different from example 1 in that the amount of the carex meyeriana powder added is 3kg, the amount of the urethane foam powder added is 5kg, the amount of the polyether polyol added is 1.5kg, and steaming is performed for 30 minutes with steam.

The insole is not suitable for use due to pulverization of the insole caused by excessive addition of Meyer sedge powder, and thus performance test is not carried out.

Comparative example 3

A manufacturing method of a carex meyeriana sports insole specifically comprises the following steps: reference is made to example 1, which differs from example 1 in that no wula sedge powder is added.

Insole performance testing

1. Detection of antibacterial Properties

The test method comprises the following steps:

the antibacterial performance test method comprises the following steps: test results of QB/T2881-2013 footwear or footwear component antibacterial performance technical condition appendix C film contact method:

and (3) testing results:

remarking:

and (3) comparison: polyethylene film, supplied by SGS laboratories;

inoculum size: 0.4 ml.

The invention detects 4 pairs of insoles selected randomly according to the method; the results of the tests including the pair of insoles 1 according to example 1 after 3 months of use (10 times of intermediate washing), the pair of insoles 2 according to example 1 after 6 months of use (20 times of intermediate washing), and the pair of insoles 1 according to example 1 after 9 months of use (30 times of intermediate washing) were as follows:

2. moisture absorption Performance test

The test method comprises the following steps:

starting on the same day, the same person, the same pair of new sports shoes, the left footpad, a carex sports insole of example 1, and the right footpad, a normal sports insole (comparative example 3), started 8: 00 to late 8: 00 hours of activity, 7 days of continuous testing, and daily detection with a digital moisture meter.

And (3) testing results:

as a result: the water content of the left foot carex sneaker insole is 6% -8%, the water content of the right foot sneaker insole is 24% -26%, and after 3 days to 5 days, the phenomena of foot odor and beriberi begin to appear on a common insole, but the carex sneaker insole is normal, because the carex sneaker insole has a good antibacterial effect, the antibacterial effects on gram-negative bacteria, gram-positive bacteria and fungi can reach more than 99%, and the moisture absorption is good, the phenomenon of foot odor cannot appear even after long-time activities. The surface of the prior sports insole is compounded by woven fabric, the air permeability is poor, the water absorption is almost zero, the back surface is made of polyurethane chemical materials, and no effect is provided, so that the humidity in the shoe reaches more than 20 percent, and the beriberi and foot odor can be induced by the humidity of more than 30 ℃.

In the process of researching the insole, a plurality of attempts are made on the addition amount of the carex meyeriana powder, and other tests including a comparative example 1 and a comparative example 3 are also subjected to antibacterial performance detection, so that the expected antibacterial effect cannot be achieved when the carex meyeriana powder is not added or the addition amount of the carex meyeriana powder is too small, and the requirement on the antibacterial performance is not met; when the Meyer sedge powder is excessively added, the insole has poor forming effect and cannot be normally used, so that the proportion relation between the Meyer sedge powder and the sponge powder must be strictly controlled to manufacture the insole with good comprehensive performance and meeting the requirements.

In addition, in order to further improve the efficacy of the carex meyeriana insole, other powder such as mung bean hull powder and rose flower powder can be added into the carex meyeriana sports insole, the total weight of the mung bean hull powder and/or the rose flower powder is less than 4% of the total weight of the raw materials, and the mung bean hull powder is added to achieve the anti-inflammatory effect; in addition, the rose pollen has the effect of beautifying and can play a skin care effect on feet.

Claims (10)

1. A carex meyeriana sports insole is characterized in that carex meyeriana sports insole is prepared by crushing carex meyeriana into powder, mixing 5-15 parts by weight of carex meyeriana powder with 30-60 parts by weight of polyurethane foam material powder, adding 5-15 parts by weight of polyether polyol, uniformly stirring, and then placing in steam for steaming and expanding.

2. The wula sedge sports insole according to claim 1, wherein the wula sedge sports insole further comprises a mung bean hull powder and a rose flower powder, wherein the total weight of the mung bean hull powder and/or the rose flower powder is less than 4% of the total weight of the raw materials.

3. The Meyer sedge sports insole according to claim 1, wherein toner is further added in the Meyer sedge sports insole, and the amount of the toner added is 0.1-0.25 parts by weight.

4. The Wula grass sports insole as claimed in claim 1, wherein the Wula grass sports insole is compounded with a mesh fabric layer on the top and a knitted fabric layer on the bottom.

5. The carex meyeriana sports insole according to any one of claims 1 to 4, wherein the powder of the polyurethane foam material is 40-50 parts by weight; 5-12 parts of Meyer sedge powder; 8-10 parts of polyether polyol.

6. The carex meyeriana sports insole according to any one of claims 1 to 4, wherein the polyurethane foam material is a polyurethane soft foam material with an open-cell structure, and comprises polyurethane sponge and regenerated sponge.

7. The insole according to any one of claims 1 to 4, wherein said polyurethane foam material powder comprises 40 parts by weight; 8-12 parts of Meyer sedge powder; 8 parts of polyether polyol.

8. The carex meyeriana sports insole according to any one of claims 1 to 4, wherein the mesh number of the carex meyeriana powder and the polyurethane foam material powder is more than 40 meshes.

9. The Meyer sedge sports insole according to claim 3, wherein the toner is added in an amount of 0.128 parts by weight, the toner is yellow and green in color, and the ratio of the yellow toner to the green toner is 1: 10-15.

10. A manufacturing method of a carex meyeriana sports insole is characterized by comprising the following steps:

step S1, respectively crushing the carex meyeriana and the polyurethane foam material into fine powder;

step S2, mixing 5-15 parts by weight of Meyer sedge powder and 30-60 parts by weight of polyurethane foam material powder and fully stirring;

step S3, adding 5-15 parts by weight of polyether polyol, and uniformly stirring again;

step S4, putting the stirred mixture into a steaming barrel, and steaming for at least 10 minutes by using steam;

step S5, cutting the steamed foaming material into a designed coiled material with standard thickness by using a slicer;

step S6, compounding a mesh fabric layer on the coiled material and compounding a knitted fabric layer on the lower side;

step S7, cutting the materials, namely cutting the rectangular sheet materials with the area larger than that of a pair of insoles by a punch for standby;

step S8, profiling, namely, performing compression molding on the spare sheet by using an insole die;

and step S9, punching the shoe material formed by pressing into the needed shoe pad size by using cutting dies with different sizes.