CN106360882A - Method for preparing nano ceramic insole capable of generating anions - Google Patents

Abstract

The invention relates to a method for preparing a nano ceramic insole capable of generating anions and belongs to the technical field of daily living products. The method comprises a first step of preparing an upper layer cushion, a second step of preparing an anion fiber felt layer, a third step of preparing a lower layer cushion and a fourth step of performing composite pressing. According to the technical scheme, the insole integrates advantages of the anion fiber felt layer and a breathable plastic cushion, so that the insole has both breathability of a cloth cushion and flexibility of the plastic cushion, the production method is simple and practical, unique lower layer cushion structure design is adopted, a health care function of the anion fiber felt layer can also be brought into full play, and the method has beneficial technical effects and remarkable practical values.

Description

A kind of preparation method of the nano ceramics shoe pad producing anion

Technical field

The present invention relates to a kind of preparation method of the nano ceramics shoe pad producing anion, belong to daily living article skill Art field.

Background technology

Shoes be people's daily life in requisite articles for use, be generally concentrated in shoe-making industry, but with people life Flat the stepping up of running water, the specific function shoe pad with the effects such as health care, antibacterial gets more and more.In these New function, thoroughly Gas is of paramount importance factor, and when only guaranteeing to use, the breathability of foot's environment, can guarantee the various functions of shoe pad Normal performance.Most permeable shoe pads at present, the generation of its airing function must coordinate sole or integrate ability in fact with sole Apply, only possess the hygienic function of isolation foot and sole, its breathability is not good enough.And, existing shoe pad manufacture method is more single One, the mostly cloth pad of sewing or hot-forming plastic mattress, in terms of breathability cloth pad more preferably, in flexibility plastic mattress then Advantageously, therefore how to combine both, the advantage of two kinds of shoe pads of set, there is larger Research Significance.

Content of the invention

For solving problems of the prior art, the invention provides a kind of nano ceramics shoe pad producing anion Preparation method, concrete technical scheme is as follows:

A kind of preparation method of the nano ceramics shoe pad producing anion, comprises the following steps: step one, prepared by upper strata pad； Step 2, prepared by negative-ion fiber carpet veneer；Step 3, lower floor's pad preparation；Step 4, compound suppressing；

Upper strata pad in described step one and step 3 and lower floor's pad are using being molded；In described step 2, first by non-woven fabrics Felt made by fiber, immerses non-woven fabrics fiber felt, born after drying after then mixing nano-ceramic particle with anion slurry Ion fiber carpet veneer；

In described step 4, after upper strata pad, negative-ion fiber carpet veneer and lower floor's pad are overlapped, use mould compressing.

As the improvement of technique scheme, in the middle part of the pad of described upper strata, be provided with embeded slot, on described lower floor pad with chimeric The corresponding position of groove is provided with hard layer, in described step 4, hard after upper strata pad, negative-ion fiber carpet veneer and lower floor's pad overlapping Layer lid is pressed onto on the embeded slot of upper strata pad.

As the improvement of technique scheme, described negative-ion fiber carpet veneer through mould be pressed into lower surface have convex Rise, described lower floor pad is provided with the ventilative chamber with male cooperation.

As the improvement of technique scheme, in described step 4, upper strata pad and lower floor's pad edge are arrived by heat pressure adhesive Together, described negative-ion fiber carpet veneer is located between upper strata pad and lower floor's pad.

As the improvement of technique scheme, described lower floor pad includes heel area and ball area, described heel area center It is provided with followed by air bag, heel area both sides are provided with followed by gas outlet, described heel area and ball area junction both sides set respectively It is equipped with edge air bag, described insole body side is provided with edge airflow passage, is connected with internal gas flow between described ventilative chamber Passage, is also equipped with internal gas flow passage, described followed by air bag pressure between the ventilative chamber of described ball area and edge airflow passage Suo Hou lower floor pad interior air-flow flow direction is followed successively by: followed by the ventilative chamber → ball area of air bag → internal gas flow passage → heel area is saturating Air cavity → edge airflow passage → edge air bag → followed by gas outlet, carry negative-ion fiber during the pad interior air-flow flowing of described lower floor Felt in the layer nano-ceramic particle and anion slurry are distributed in lower floor's pad.

As the improvement of technique scheme, described upper strata pad and lower floor's pad are made using breathable plastic, described upper strata pad On be provided with uniform air-vent.

As the improvement of technique scheme, described heel area and ball area after bending hard layer to internal gas channel Closed.

As the improvement of technique scheme, in described step 2, nano-ceramic particle includes nano-titanium oxide, nanometer One or more of zirconium oxide or nanometer silver powder.

The advantage of shoe pad set negative-ion fiber carpet veneer and breathable plastic pad in technique scheme, so that Shoe pad has the breathability of cloth pad concurrently, has lower floor's pad knot of the pliability of plastic mattress, simple and practical production method, and uniqueness again Structure designs it is also possible to give full play to the health care of negative-ion fiber carpet veneer, has beneficial technique effect and significantly practicality It is worth.

Brief description

Fig. 1 is each layer schematic diagram of the nano ceramics shoe pad in the present invention；

Fig. 2 is the structural representation of lower floor's pad in the present invention；

Fig. 3 is the compacting tool set schematic diagram of negative-ion fiber carpet veneer in the present invention；

Fig. 4 is the distributing position schematic diagram of each correlation ventilating structure on lower floor's pad in the present invention；

Fig. 5 be the present invention in followed by air bag compression after lower floor's pad interior air-flow flow to schematic diagram.

Specific embodiment

As shown in figure 1, the invention provides a kind of preparation method of the nano ceramics shoe pad producing anion, including with Lower step: step one, prepared by upper strata pad 40；Step 2, prepared by negative-ion fiber carpet veneer 30；Step 3, prepared by lower floor's pad 10；Step Rapid four, compound suppressing.In step 2, first non-woven fabrics fiber is made felt, then by nano-ceramic particle and anion slurry Immerse non-woven fabrics fiber felt after mixing, obtain negative-ion fiber carpet veneer 30 after drying, nano-ceramic particle includes nano oxidized One or more of titanium, nano zircite or nanometer silver powder, anion slurry can adopt Patent No. 201110154902.7 patent of invention " a kind of slurry that can produce anion, preparation method and its in preparation purify air Anion slurry used in application in filter material " (this patent is applied for and patented power for applicant)；Described step 4 In, use mould compressing after upper strata pad 40, negative-ion fiber carpet veneer 30 and lower floor's pad 10 are overlapped, now upper strata pad 40 and under Layer pad 10 edge passes through heat pressure adhesive to together, and described negative-ion fiber carpet veneer 30 is located between upper strata pad 40 and lower floor's pad 10.

In step one and step 3, upper strata pad 40 and lower floor's pad 10 are made using injection moulding process, whole in order to improve shoe pad The breathability of body, upper strata pad 40 and lower floor's pad 10 are made using breathable plastic, described upper strata pad 40 is provided with and uniformly breathes freely Hole 41, this air-vent 41 will improve the breathability of upper strata pad 40.In step 2, first non-woven fabrics fiber is made felt, then will Nano-ceramic particle immerses non-woven fabrics fiber felt after mixing with anion slurry, obtains negative-ion fiber carpet veneer 30 after drying；? In step 4, after upper strata pad 40, negative-ion fiber carpet veneer 30 and lower floor's pad 10 are overlapped, use mould compressing.

Embeded slot 42 can be set in the middle part of upper strata pad 40, and on lower floor's pad 10, position corresponding with embeded slot 42 is provided with hard Layer 20, in step 4, after upper strata pad 40, negative-ion fiber carpet veneer 30 and lower floor's pad 10 overlapping, hard layer 20 lid is pressed onto upper strata pad On 40 embeded slot 42.The material of hard layer 20 can select the slightly hard material of upper layer pad 40, when it is coordinated with embeded slot 42, It can be avoided that negative-ion fiber carpet veneer 30 bulge, thus causing to lead to upper strata pad 40 raised, cause user foot uncomfortable.

In order to improve the chimeric degree of negative-ion fiber carpet veneer 30 and lower floor's pad 10, negative-ion fiber carpet veneer 30 is through mould It is pressed into lower surface and has raised 31, described lower floor pad 10 is provided with the ventilative chamber 13 with raised 31 cooperations.This mould is permissible Using the compacting tool set 50 shown in Fig. 3, tie on surface including right side mould 51 and left side mould 52, wherein right side mould 51 and left side mould 52 Design can slightly be distinguished on structure, after convenient compacting, negative-ion fiber carpet veneer 30 distinguishes left and right foot.

In described step 4, upper strata pad 40 and lower floor pad 10 edge pass through heat pressure adhesive to together with, described negative-ion fiber Carpet veneer 30 is located between upper strata pad 40 and lower floor's pad 10, why by the way of heat pressure adhesive, is to improve footwear after hot pressing The flatness on pad surface, improves the comfortableness of foot.

Fig. 2, Fig. 4 are a kind of specific design mode of lower floor's pad 10, including heel area 11 and ball area 12, described heel area 11 centers are provided with followed by air bag 18, and heel area 11 both sides are provided with followed by gas outlet 16, and heel area 11 and ball area 12 are even The place of connecing both sides are respectively arranged with edge air bag 15, and insole body side is provided with edge airflow passage 14, connects between ventilative chamber 13 It is connected to internal gas flow passage 17, between the ventilative chamber 13 of ball area 12 and edge airflow passage 14, be also equipped with internal gas flow passage 17.

Followed by lower floor's pad 10 interior air-flow flows to as shown in figure 5, being followed successively by after air bag 18 compression: followed by air bag 18 → internal gas Ventilative chamber 13 → edge airflow passage, 14 → edge air bag 15 of the ventilative chamber 13 → ball area 12 of circulation road 17 → heel area 18 → followed by gas outlet 16, carry nano-ceramic particle in negative-ion fiber carpet veneer 30 during the flowing of lower floor's pad 10 interior air-flow with bear from Sub- slurry is distributed in lower floor's pad 10.Shoe pad in this technical scheme, when using, has a function of two aspects: first, pass through Foot to followed by air bag 18 compressing, thus drive each correlation ventilating structure interior air-flow circulation, due to followed by gas outlet 16 exist Point at the neckline of footwear during design, therefore in user walking, along with followed by the trampling each time of air bag 11, can be real Show shoe pad interior air-flow to outside flowing, thus realizing the circulation of space air-flow in footwear；Second, by chamber of breathing freely in lower floor's pad 10 The flowing of 13 air-flows, accelerates the nano-ceramic particle in the projection 31 accommodating in ventilative chamber 13 with anion slurry in lower floor's pad 10 Interior dispersion, improves the filtration, purification effect to air-flow, using the antibacterial of nano-ceramic particle and anion slurry, deodorant work( Can, improve the health care of shoe pad.

Described heel area 11 and ball area 12 hard layer 20 after bending is closed to internal gas channel 17, this hard The effect of layer 20 has two: first, the join domain of heel area 11 and ball area 12 in user walking or when running, this region Often there is bending, therefore this hard layer 20 can strengthen the fracture toughness in this region, improve service life；Second, work as heel , after join domain occurs bending, the person of being usually used is in the state of having an effect that sole lands, now foot for area 11 and ball area 12 Heel substantially do not stress with heel area 11, therefore in bending utilize hard layer 20 closing heel area 11 and ball area 12 it Between connect internal gas flow passage 17, be prevented from followed by air bag 18 elastic return after to gas channel produce resorption, it is to avoid cut The circulation of air flow effect of weak insole body.

Above embodiments of the invention are described in detail, but described content have been only presently preferred embodiments of the present invention, It is not to be regarded as the practical range for limiting the present invention, all impartial changes made according to the scope of the invention and improvement etc., all should Still belong within covering scope of the present invention.

Claims (8)

1. a kind of preparation method of the nano ceramics shoe pad producing anion, comprises the following steps: step one, upper strata pad (40) Preparation；Step 2, prepared by negative-ion fiber carpet veneer (30)；Step 3, prepared by lower floor's pad (10)；Step 4, compound suppressing；

It is characterized in that, the upper strata pad (40) in described step one and step 3 and lower floor's pad (10) are using being molded；Described In step 2, first non-woven fabrics fiber is made felt, after then nano-ceramic particle being mixed with anion slurry, immerse non-woven fabrics Fiber felt, obtains negative-ion fiber carpet veneer (30) after drying；

In described step 4, suppressed with mould after upper strata pad (40), negative-ion fiber carpet veneer (30) and lower floor's pad (10) are overlapped Molding.

2. as claimed in claim 1 a kind of preparation method of the nano ceramics shoe pad producing anion it is characterised in that institute State and in the middle part of upper strata pad (40), be provided with embeded slot (42), the upper position corresponding with embeded slot (42) of described lower floor pad (10) is provided with Hard layer (20), in described step 4, hard layer after upper strata pad (40), negative-ion fiber carpet veneer (30) and lower floor's pad (10) overlapping (20) lid is pressed onto on the embeded slot (42) of upper strata pad (40).

3. as claimed in claim 2 a kind of preparation method of the nano ceramics shoe pad producing anion it is characterised in that institute State negative-ion fiber carpet veneer (30) and be pressed into lower surface through mould and there are raised (31), described lower floor pad (10) is provided with and The ventilative chamber (13) that raised (31) coordinate.

4. as claimed in claim 3 a kind of preparation method of the nano ceramics shoe pad producing anion it is characterised in that institute State in step 4, upper strata pad (40) and lower floor pad (10) edge pass through heat pressure adhesive to together with, described negative-ion fiber carpet veneer (30) it is located between upper strata pad (40) and lower floor's pad (10).

5. as claimed in claim 4 a kind of preparation method of the nano ceramics shoe pad producing anion it is characterised in that institute State lower floor's pad (10) and include heel area (11) and ball area (12), described heel area (11) center is provided with followed by air bag (18), heel area (11) both sides are provided with followed by gas outlet (16), described heel area (11) and ball area (12) junction both sides It is respectively arranged with edge air bag (15), described insole body side is provided with edge airflow passage (14), described ventilative chamber (13) Between be connected with internal gas flow passage (17), between the ventilative chamber (13) of described ball area (12) and edge airflow passage (14) It is provided with internal gas flow passage (17), after described followed by air bag (18) compresses, lower floor's pad (10) interior air-flow flow direction is followed successively by: heel The ventilative chamber (13) of the ventilative chamber (13) of air bag (18) → internal gas flow passage (17) → heel area (18) → ball area (12) → Edge airflow passage (14) → edge air bag (15) → followed by gas outlet (16), carry during pad (10) the interior air-flow flowing of described lower floor Nano-ceramic particle in negative-ion fiber carpet veneer (30) and anion slurry are distributed in lower floor's pad (10).

6. as claimed in claim 5 a kind of preparation method of the nano ceramics shoe pad producing anion it is characterised in that institute State upper strata pad (40) and lower floor's pad (10) is made using breathable plastic, described upper strata pad (40) is provided with uniform air-vent (41).

7. as claimed in claim 6 a kind of preparation method of the nano ceramics shoe pad producing anion it is characterised in that institute State heel area (11) and ball area (12) hard layer (20) after bending internal gas channel (17) is closed.

8. as claimed in claim 1 a kind of preparation method of the nano ceramics shoe pad producing anion it is characterised in that institute State in step 2, nano-ceramic particle includes one or more of nano-titanium oxide, nano zircite or nanometer silver powder.