CZ202296A3 - Multi-layer antibacterial shoe insole with activated carbon, producing it and footwear with this insole - Google Patents

Abstract

A multi-layer antibacterial shoe insole with activated carbon, comprising a carrier layer (1), a layer (2) with activated carbon and an upper layer (4) consists in the fact that a layer is placed above the carrier layer (1) formed by pressing from a mixture of cork granules and a binder (2) with activated carbon, which is covered on its upper side with an antibacterial layer (3) containing copper throughout its surface, while being permeable to steam and liquid moisture, and which is covered on its upper side with an antibacterial upper layer (4), which is permeable to both steam and liquid moisture, with the fact that all layers of the insole are connected to each other and the insole has a three-dimensional shaping, which on its upper side corresponds to the shape of the impression of the lower part of the human foot with a smooth toe part, with a well for the thumb joint and a well for the heel, and which on its lower surface corresponds to the shape of the lower part of the human foot with a smooth toe part. The solution further relates to the method of manufacturing such an insole and footwear provided with an insole according to the invention.

Description

Multi-layer antibacterial shoe insole with activated carbon, method of its production and footwear equipped with this insole

Field of technology

The invention relates to a multilayer antibacterial shoe insole with activated carbon comprising a support layer, an active layer with activated carbon and an upper layer.

Furthermore, the invention relates to a method of manufacturing such an insole.

The invention also relates to footwear provided with an antibacterial insole according to the invention, wherein the upper part of the footwear comprises an outer layer under which a semi-permeable membrane is arranged.

Current state of the art

Various types of single-purpose shoe insoles are currently known. One of them is shoe insoles, which are supposed to increase walking comfort by containing a flexible layer, the shape of which adapts to the shape of the lower part of the human foot during the use of the insole. The disadvantage of these insoles is that if their user has an inappropriately shaped foot, or an inappropriate way of treading, the insole is shaped in such a way that it further aggravates this defect during treading.

The second of them are insoles, which are supposed to increase the quality of walking. These insoles have a relief created on their upper side, which is in contact with the user's foot, by protrusions and dimples, which should correspond to the shape of the lower part of the foot. The disadvantage of these insoles is that they are shaped according to the unified human foot and do not take into account individual shaping, especially the shape and inclination of the toes, so that during use, the toes forcibly adapt to the insole shape, which significantly reduces walking comfort and discourages users from using these insoles .

Both types of insoles are sometimes supplemented with an antimicrobial or odor-absorbing layer of material, e.g. based on impregnation, or a layer containing activated carbon. When impregnation with activated carbon is applied to the surface layer of the insole, the activated carbon layer is exposed to abrasion and therefore has little durability.

From CN 103504709 A there is known an insole containing a surface layer of cotton arranged from above, a layer with activated carbon and a lower PU layer. The disadvantage of the surface layer of cotton is, in particular, the property of cotton to retain water, i.e. liquid moisture, which the surface cotton layer does not allow to reach the layer with activated carbon, so that the insole is still wet when worn in shoes, and even after drying, odors are not completely absorbed, as part of them remains in surface cotton layer. CN 200966380 Y also describes a similar arrangement of the insole.

The arrangement of the insole with a surface layer of leather has the same properties, whether natural leather, as described for example in EP 2308335 AI, or artificial, since the leather layer has a relatively large thickness and liquid moisture is retained in it.

Keeping the foot dry is the aim of JP 2007289605 A. Above the soft lower part of the insole, outside the heel part, there is an upper layer, which on part of the circumference of the insole is boiled to the lower part and on the rest of the circumference is openable, so that it forms a pocket into which it is inserted replaceable moisture absorber, formed for example by silica gel.

CN 104665097 A describes an insole comprising an upper breathable cotton textile layer, a woven natural vanilla textile layer and a felt layer with activated carbon. Vanilla gives the insole a scent and has an important deodorizing effect. The disadvantage is the low strength and shape stability of the insole and especially the retention of liquid moisture in the textile layers, as described above.

-1 CZ 2022 - 96 A3

The aim of the invention is to design a shoe insole that would be suitably shaped for high walking comfort, would not support bad footing or bad shaping of the foot and eliminate the disadvantages of the state of the art, in particular ensure the absorption of odors and liquid moisture without moisture remaining in the textile layers, and at the same time should have sufficient and long-lasting antibacterial and antifungal properties.

The essence of the invention

The aim of the invention is achieved by a multi-layer antibacterial insole of shoes with activated carbon containing a support layer, a layer with activated carbon and an upper layer, while above the support layer formed by pressing from a mixture of cork granulate and binder is placed a layer with activated carbon, which is covered on its upper side with an antibacterial a layer containing copper throughout its surface, while being permeable to steam and liquid moisture, and which is covered on its upper side with an antibacterial upper layer that is permeable to steam and liquid moisture, while all layers of the insole are connected to each other, the insole has a three-dimensional shape, which on its upper side corresponds to the shape of the imprint of the lower part of the human foot with a smooth toe part, with a hole for the thumb joint and a heel hole, and which on its lower surface corresponds to the shape of the lower part of a human foot with a smooth toe part.

The supporting cork layer ensures shape stability and low weight of the insole, while the insole flexibly supports the user's entire foot. In addition, the cork provides thermal insulation of the other layers of the insole from the sole, thus reducing the condensation of liquid moisture from the vapors that form in the shoe above the insole.

The antibacterial layer containing copper throughout its surface is connected on its upper side to the antibacterial upper layer formed by antibacterial leather and on its lower side it is connected to the layer containing activated carbon, all layers being perforated.

The antibacterial layer containing copper throughout its surface in combination with the antibacterial upper layer made of antibacterial leather ensures perfect antibacterial action of the entire upper part of the insole. The layer with activated carbon supports the antibacterial action of the upper layers, and also serves to absorb moisture and odors.

In an advantageous embodiment, the lower surface of the supporting cork layer is protected by sticking a protective layer, while this protective layer protects the cork material of the supporting layer from dusting, breaking and abrasion.

The essence of the method of manufacturing the insole according to the invention is that in the first step, an antibacterial upper layer consisting of antibacterial leather is glued from the upper side to an antibacterial layer containing copper throughout its surface, and a layer containing activated carbon is glued from the lower side, after which all layers are perforated together and it is then inserted into a mold, the bottom of which is formed in a shape that corresponds to the shape of the lower part of the human foot with a protrusion in the area of the big toe joint, a protrusion in the area of the heel and a smooth toe part, and on the layer containing activated carbon, which is in the mold at the top, spread the mixture of crushed cork and binder in an amount corresponding to the required thickness of the cork carrier layer and the filled mold after covering the cover part of the mold, the working surface of which is shaped like an impression of the lower part of the human foot with a smooth toe part, with a hole in the area of the thumb joint and with a hole or reduction in the heel area, it compresses the cold into the resulting spatial shape of the insole, while its individual layers take shape and connect to each other.

A further increase in the effects of the insole according to the invention is achieved by its use in footwear, the upper of which contains an outer layer and an inner layer which contains a layer containing activated carbon, which is arranged below the outer layer, while an antibacterial layer containing in its entirety is arranged below the layer containing activated carbon surface copper, which is covered from the inside with an internal antibacterial top layer made of leather, while the layer containing activated carbon,

-2 CZ 2022 - 96 A3 antibacterial layer containing copper throughout its surface and the inner antibacterial top layer are perforated together.

Clarification of drawings

Exemplary embodiments of the insole according to the invention are shown schematically in the attached drawings, where Fig. 1 represents a section of the insole with the upper layer surrounding the sides of the insole and fixed on the underside of the supporting layer of the insole; and Fig. 2 a shoe equipped with an insole.

Examples of implementation of the invention

The insole of the shoe according to the invention is spatially shaped, while on its upper side it is provided with shaping corresponding to the shape of the imprint of the lower part of the human foot with a smooth toe part, with a hole for the thumb joint and a heel hole, and on its lower side with shaping corresponding to the shape of the lower part of the human foot with with a smooth toe part according to patent CZ 298894 B6, or a recess or reduction according to CZ PV 2009-580 A3 is created in its heel part from above, in which a heel well is created, which is thus the lowest part on the upper side of the insole.

In the basic exemplary embodiment shown in Fig. 1, the insole contains a supporting layer 1, which is made of a mixture of crushed cork and a suitable binder, for example polyurethane, cooled by pressing. The supporting layer 1 supports the entire insole and provides it with sufficient stiffness, flexibility, low weight, dimensional stability and good thermal insulation properties. The lower side of the support layer 1 is intended for contact with the sole of the shoe and is protected by a protective layer 5, for example in the form of a net.

Due to its heat-insulating properties, the carrier layer 1 creates a thermal bridge between the sole of the shoe and the upper part of the insole and thus prevents the transfer of heat, especially cold, from the sole to the upper part of the insole and the foot.

Layer 2, which contains activated carbon in any suitable form, is placed on top of the cork carrier layer 1. In a preferred embodiment, layer 2 consists of a non-woven fabric or felt, between the fibers of which activated carbon is arranged, and it is advantageous if the activated carbon is bound on the fibers or between them to reduce the possibility of its release. Layer 2, thanks to the large surface of active carbon (400 to 1500 m ² /g), ensures the absorption of odors and moisture.

From the upper side, the layer 2 with active carbon is covered with an antibacterial layer 3 containing copper throughout its surface, while it is permeable to steam and liquid moisture. In a specific embodiment, this layer is formed by a textile, on the fibers of which and/or between them, copper particles are bound. The antibacterial layer 3, which contains copper throughout its surface, is covered from the upper side with the antibacterial upper layer 4, which is permeable to steam and liquid moisture, while all the layers of the insole are connected to each other and the insole has a three-dimensional shape that on its upper side corresponds to the shape of the imprint of the lower part of a human foot with a smooth toe part, with a well for the thumb joint and a heel well, and which on its lower surface corresponds to the shape of the lower part of a human foot with a smooth toe part.

The antibacterial layer 3 containing copper throughout its surface is connected on its upper side to the antibacterial upper layer 4 formed by antibacterial leather and on its lower side it is connected to the layer 5 containing activated carbon, whereby all layers 3, 4, 5 are perforated.

In the exemplary embodiment according to Fig. 1, the antibacterial top layer 4 is larger and its edges are folded around the perimeter of the insole and fixed on the underside of the carrier layer 1 by gluing or in another suitable way. In an embodiment not shown, the edges of the layers are open and are secured by a circumferential hemming.

CZ 2022 - 96 A3

During the manufacture of the insole, in the first step, an antibacterial upper layer 4 consisting of antibacterial leather is glued from the upper side to the antibacterial layer 3, which contains copper throughout its surface, and layer 2 containing activated carbon is glued from the lower side, after which all layers (3, 4, 5) they are perforated together and subsequently inserted into a mold of the appropriate size, the bottom of which is shaped like the lower part of a human foot with a smooth toe part, with a protrusion in the area of the thumb joint and a protrusion or increase in the heel area, i.e. the negative of the shape of the upper part of the insole. After insertion, the layer 2 containing activated carbon is on top and a mixture of crushed cork is spread over it and is bonded in an amount corresponding to the required thickness of the cork supporting layer 1, and the filled mold is covered with the cover part of the mold, the working surface of which is shaped like an impression of the lower part of a human foot with with a smooth toe part, with a dimple in the area of the thumb joint and with a dimple or reduction in the heel area, it is cold pressed into the resulting three-dimensional shape of the insole, while its individual layers are shaped and connected to each other. Subsequently, the protective layer 5 is attached to the lower surface of the cork supporting layer.

A further increase in the effects of the layered insole according to the invention is achieved by its use in footwear, the upper 11 of which contains an outer layer 12 made of known materials, for example natural leather, artificial leather or textile, and to increase the permeability for pairs, the outer layer 12 is perforated. Underneath the outer layer 12 is an inner layer, which contains a layer 2 containing activated carbon, which is arranged under the outer layer 12, while under the layer 2 containing activated carbon, an antibacterial layer 3 is arranged containing copper throughout its surface, which is covered from the inside an inner antibacterial upper layer 4 made of leather, wherein the layer 2 containing activated carbon, the antibacterial layer 3 containing copper throughout its surface and the inner antibacterial upper layer 4 are perforated together.

The individual layers are connected in a known manner and shaped into the desired shape of the shoe upper.

Industrial applicability

The invention can be used in the footwear industry.

Claims (5)

PATENT CLAIMS 1. A multi-layer antibacterial shoe insole with activated carbon, comprising a carrier layer (1), a layer (2) with activated carbon and an upper layer (4), characterized in that above the carrier layer (1) formed by pressing from a mixture of cork granulate and binder a layer (2) with activated carbon is placed, which is covered on its upper side with an antibacterial layer (3) containing copper throughout its surface, while being permeable to steam and liquid moisture, and which is covered on its upper side with an antibacterial upper layer (4 ), which is permeable to both vapor and liquid moisture, while all layers of the insole are connected to each other and the insole has a three-dimensional shaping that on its upper side corresponds to the shape of the imprint of the lower part of the human foot with a smooth toe part, with a well for the thumb joint and a well for the heel, and which on its lower surface corresponds to the shape of the lower part of the human foot with a smooth toe part. 2. Multi-layer insole according to claim 1, characterized in that the antibacterial layer (3) containing copper throughout its surface is connected on its upper side to the antibacterial upper layer (4) formed by antibacterial leather and on its lower side is connected to the layer ( 5) containing activated carbon, while all layers (3, 4, 5) are perforated. 3. Multi-layer insole according to one of the preceding claims 1 or 2, characterized in that a protective layer (5) serving to protect the cork material of the carrier layer (1) is attached to the underside of the carrier layer (1). 4. The method of manufacturing a multi-layer insole according to any one of claims 1 to 3, characterized by the fact that an antibacterial upper layer (4) consisting of antibacterial leather is glued from the upper side to the antibacterial layer (3) containing copper throughout its surface and is glued from the lower side layer (2) containing activated carbon, after which all layers (3, 4, 2) are perforated together and subsequently inserted into a mold, the bottom of which is formed in a shape that corresponds to the shape of the lower part of the human foot with a projection in the area of the big toe joint, a projection in the area of the heel and with a smooth toe part, and further, a mixture of crushed cork is spread on the layer (5) containing activated carbon and is bonded in an amount corresponding to the required thickness of the cork supporting layer (1), and the filled mold, after being covered with the cover part of the mold, whose working surface is shaped like an imprint of the lower part of the human foot with a smooth toe part, with a dimple in the area of the big toe joint and with a dimple or reduction in the heel area, pressed cold into the resulting spatial about the shape of the insole, while its individual layers are formed and connected to each other. 5. Footwear equipped with a multi-layer insole according to any one of claims 1 to 3, in which the upper (11) contains an outer layer (12) and an inner layer, characterized in that the inner layer of the upper (11) contains a layer (2) containing an active charcoal, which is arranged under the outer layer (12), while under the layer (2) containing activated carbon there is an antibacterial layer (3) containing copper throughout its surface, which is covered from the inside with an internal antibacterial upper layer (4) made of leather, wherein the layer (2) containing activated carbon, the antibacterial layer (3) containing copper throughout its surface and the inner antibacterial top layer (4) are perforated together.