EP1874148A1 - Fireproof footwear with protective function against toxic substances - Google Patents

Abstract

The invention relates to fireproof and/or flame-resistant footwear (1), in particular boots for firefighters, with a protective function against harmful substances, such as toxic chemical substances, the footwear (1) having a multilayered structure (2), the structure (2) comprising an outer layer (3), facing away from the foot when said footwear is being worn, and an inner layer (4), in particular an inner lining, provided on the outer layer (3) and facing towards the foot when said footwear is being worn. An adsorption layer (5) with an adsorption material (6), in particular activated charcoal, adsorbing harmful substances, is additionally arranged between the outer layer (3) and the inner layer (4), and the outer layer (3) is additionally provided with a fireproof and/or flame-retardant coating or impregnation (12).

Description

 Fireproof footwear with protection against toxins

The present invention relates to a fire- or flame-resistant footwear, in particular a boot for firefighters, with protective function against pollutants, in particular chemical toxins, according to the preamble of claim 1, in particular for firefighting use in a chemically or biologically contaminated area or Operation area.

Firefighters, such as firefighters, are often exposed to adverse environmental or environmental conditions during use. Very high temperatures often prevail at the place of use and, in particular due to the action of fire, often toxic substances are created, from which the persons in use must be protected. This applies in particular to large-scale operations, for example in chemical production plants, where a large number of sometimes highly toxic substances can often be released. Persons such as firefighters, who may come into contact with such toxic substances as chemical poisons, must wear suitable protective equipment at the same time as having good flame resistance and, on the one hand, protection against toxic substances.

Particular care should be taken to ensure that the feet are sufficiently protected against the effects of fire and toxic substances such as chemical poisons. In particular, such protective footwear must be suitable for firefighting and decontamination use. For this purpose, boots are used according to the prior art for firefighting, which generally have the decisive disadvantage that often neither measures to significantly improve the flame retardant or fire-resistant properties and thus a protection against high temperatures provided measures or means are, with which the passage of chemical or biological toxins through the shoe material is effectively and effectively prevented. Thus, the footwear according to the prior art is not always guaranteed an effective protection against chemical or biological toxins, and the Flame resistance is not always satisfactory, so that such footwear in use can not always ensure optimum protection.

For example, DE 196 24 553 A1 relates to a boot with a foot part and a boot leg which has a special lace tie-up, with which it is to be achieved that unwanted loosening of the lace tie-up connection in the wearing state is avoided and also a tight fit when worn the boot is guaranteed at the foot even with kinking movements. Specific measures to improve the fire or flame retardant properties or specific measures to improve the protective function against pollutants, such as chemical toxins, are not provided in this document.

DE 295 04 365 U1 relates to a boot which has an oblique instep part which conveys a foot part to the front in a shaft, the instep part being covered by a break-proof and rigid covering. As a result, the accident protection is to be improved because the cover to accommodate high forces to be able. Special measures to improve the fire and flame resistance and protection against harmful substances are not mentioned in this document.

Furthermore, DE 41 23 088 A1 relates to a method for the production of heat-resistant boots, in which a special connection of a sole to the shaft of the boot is made using compression molds. This document focuses primarily on a heat-stable training of the adhesive bond between the sole and the boot.

DE 201 16 043 Ul relates to a protective boot for firefighters from a conventional boot material, which should have an improved slip-ability by the use of a pleat in the instep area. As a material for the pleats, this document provides a textile material, which is optionally coated with a polyurethane, silicone or plastic. Equipping the rest of the shoe area with protection against harmful substances is not provided for in this document. Furthermore, DE 295 06 366 U1 relates to a closed protective boot whose blade and quarter are each formed in one piece, as a result of which the protective boot is intended to be watertight up to the ankle height owing to the presence of fewer seams and the protective boot is moreover intended to enable rapid slip-in. Also in this document measures are missing to equip the upper of the boot fire or flame retardant and the protective boots with improved protection against pollutants.

Finally, DE 691 31 464 T2 relates to a protective footwear arrangement which is also to be suitable for firefighters, in which a protective insert forms a unitary capsule for protecting the sole, heel and toes of a foot. This document thus focuses primarily on a physical protective function with regard to the foot of a wearer, since this is to be protected against high force effects.

Overall, therefore, no footwear, in particular boots for firefighters, are known from the state of the art, which at the same time have a high protective function against toxic substances, in particular chemical poisons, while at the same time being fire- or flame-resistant. Accordingly, it is not always guaranteed in the prior art that the footwear described there meets the high demands in fire fighting and decontamination use.

The present invention is therefore an object of the invention to provide a fire or flame resistant footwear, especially a boot for firefighters, which is particularly suitable for firefighting or decontamination and at least partially avoids the disadvantages of the prior art described above or at least weaker.

To solve the above-described problem, the present invention proposes a fire or flame resistant footwear, in particular a boot for firefighters, according to claim 1 before. Further, advantageous embodiments of the fire-resistant or flame-resistant footwear according to the invention are the subject matter of the subclaims. - A -

One aspect of the present invention is the fact that the fire or flame resistant footwear is additionally equipped with a fire or flame retardant coating or impregnation. This ensures that the footwear is resistant even at high temperatures and fire or flame, as they often occur in the context of fire fighting on site and the wearer of the shoe effectively protects against high heat or burns. The fire- or flame-resistant properties of the footwear according to the invention can thereby be achieved, for example, by using a special fire-resistant or flame-retardant coating or impregnation, for example based on phosphoric acid compounds, metal salts or fluorinated polymers, in particular in combination with a flame-retardant material, like a leather and / or a flame retardant textile material. As a result, a particularly effective fire or flame resistance is obtained, so that the footwear of the invention is ideal for firefighting use.

Another aspect of the present invention realized in combination with the aforementioned measures resides in a fire-resistant or flame-resistant footwear, in particular a boot for firefighters, with a multi-layered layer structure which has an outer layer facing away from the foot when worn and one of the outer layer associated, in the wearing state the foot-facing inner layer, in particular a Schuannnenfutter, at the same time (ie in addition to the flame or fire resistance) by with a protective function against pollutants, such as chemical toxins, equip that between the outer layer and the inner layer additionally an adsorption layer based on a toxic substances adsorbing adsorbent material, in particular activated carbon, is arranged or provided. In this way it is achieved that any contaminants, in particular chemical toxicants, which have penetrated through the outer layer of the footwear can not come into contact with the foot, since they are absorbed or adsorbed by the adsorption material, in particular the activated carbon, of the adsorption layer and onto the latter Can be made harmless. Further advantages, features, characteristics and aspects of the present invention will become apparent from the following description of a preferred embodiment with reference to the drawings. 1 shows a schematic representation of a fire- or flame-resistant footwear, in particular a boot for firefighters, according to a preferred exemplary embodiment of the invention;

Fig. 2 is a schematic sectional view through the layer structure of a footwear according to the invention, in particular boot for

Firefighters, according to a preferred embodiment of the invention.

1 shows a fire-resistant or flame-resistant footwear 1, in particular a boot for firefighters, with a protective function against pollutants, such as chemical toxins or biological pollutants. As can be seen from FIGS. 1 and 2, the fire- or flame-resistant footwear according to the invention has a multilayered layer structure 2 with an outer layer 3 (ie, away from the foot in the wearing state) and an inner side (ie, in the worn state) associated with the outer layer 3 Foot-facing) inner layer 4, in particular a Schuhinnenfutter on.

Fig. 2 further shows that between the outside 3 and the inner layer 4, an adsorption layer 5 is additionally arranged. The adsorbent layer 5 comprises a toxic adsorbent adsorbent material 6, wherein the adsorbent material is preferably activated carbon, as discussed in detail below. Due to this special equipment of the footwear according to the invention with the adsorption layer 5 an efficient protection against pollutants, such as chemical toxins and biological harmful substances, while ensuring high comfort is guaranteed.

2, it is additionally provided that at least the outer layer 3 of the multi-layered layer structure 2 of the fire- or flame-resistant footwear 1 according to the invention is equipped with a fire-resistant or flame-retardant coating or impregnation 12. This ensures that the footwear 1 according to the invention is also used in the event of flame and fire, in particular in fires can be, because it has fire- or flame-resistant properties. Thus, fire-resistant or flame-resistant footwear 1 according to the invention is particularly suitable for firefighters, since in particular in firefighting operations often high ambient temperatures are present and the footwear often comes directly into contact with fire, flames, embers or the like.

With regard to the fire-resistant or flame-retardant coating or impregnation 12 of the fire-resistant or flame-resistant footwear 1 according to the invention, substances or chemical compounds known to the person skilled in the art, both of inorganic and organic nature, which can be used in this respect Outer layer 3 of footwear 1 flameproof or flame retardant equip. These include, for example, substances which prevent the ignition of the outer layer 3 or make it difficult to ignite and / or burn it. For example, according to the invention, flame-retardant, char-promoting or barrier-layer or intumescent substances can be used for the flame-retardant coating or impregnation 12 of the outer layer 3.

In this context - without wishing to be bound by any theory - fire-extinguishing or carbonization-promoting flame retardants insofar as they form a non-combustible or heat-insulating layer against heat and heat or increase their formation by heat, by the thermal degradation of carbon compounds so direct that the charring of the layer to be protected - in the present case, the outer layer 3 - promoted and the elimination of combustible gases is attenuated. These substances include, for example, ammonium phosphate, which not only gives off ammonia under the influence of heat, but also acts as a dehydrating agent since it gives off charring phosphoric acid.

Furthermore, barrier-forming agents or sealants can be used according to the invention which, without wishing to be bound by any particular theory, form flame-retardant, thin barrier layers under the influence of heat, which prevent the atmospheric oxygen from entering a layer impregnated therewith. Such barrier layer-forming agents include, for example, ammonium polyphosphates and expandable graphites. May continue to so-called intumescent coating are used which - without wishing to be bound by theory - combine the properties of carbonization-and barrier layer-forming flame retardants, which also blähaktive substances can be used which then swell foamy when heated and, for example, from 250 to 300 ⁰ C. carbonize, thereby solidify and form a fine-pored, well-insulating pad. Such substances include, for example, organic phosphate compounds.

According to the invention it is equally possible to use combinations of the aforementioned flame retardants. Furthermore, it is also possible to use substances whose thermal dehydration consumes enough energy to make them suitable as flame retardants, for example aluminum hydroxides.

According to the invention can be used as flame retardant or flame retardant coating or impregnation 12 and radical scavengers, which interrupt the chain reaction of the combustion. These may be, for example, antimony compounds, such as antimony trioxide, in particular in combination with a halogen donor act. According to the invention, it is also possible to carry out a textile-chemical coating or impregnation of the outer layer 3 with phosphorus compounds, wherein - without wishing to be bound by any particular theory - the outer layer 3 is provided with an oxygen-barrier, thin coating which contains the carbon compound , For example, cellulose in the case of textiles, catalytically decomposes into carbon and water during combustion.

For further relevant remarks on flame retardants can be made to Römpp Chemielexikon, 10th edition, Volume 2, p. 1997, Georg Thieme Verlag, keyword: "Flammschutzmitter, pages 1352-1353, the entire disclosure, including the literature mentioned therein by Reference is included.

According to the invention, the fire or flame retardant coating or impregnation 12 is preferably based on (i) phosphoric acid compounds, in particular phosphoric acid esters; (ii) metal salts, especially antimony or aluminum salts; or (iii) fluorinated polymers and mixtures of two or more of the aforementioned compounds.

The fire- or flame-retardant coating or impregnation 12 can be applied in a manner known per se to the person skilled in the art, for example in the form of a solution, suspension or the like, by immersion, sputtering and / or by means of a pressure / vacuum impregnation. Likewise, application by means of, for example, a doctor blade or roller coater, by spray coating, by calendering and / or by transfer coating by screen printing is also possible. It is equally within the scope of the present invention, when the fire or flame retardant coating or impregnation 12 by means of a chemical incorporation or a grafting of flame retardant compounds, for example in the form of monomers, in or on the molecular structure of the outer layer 3 takes place , For example, grafting by means of vinylphosphonic acid is possible. The person skilled in the art knows such methods, and the person skilled in the art is in a position to select both the type and amount of the flame retardant and the manner of application of the coating or impregnation to the outer layer 3 of the footwear 1 according to the invention in the light of the present invention or perform. Likewise, it is possible according to the invention to provide the further layers of the layer structure 2, in particular the inner layer 4 or other layers, with a fire and / or inhibiting coating or impregnation.

As far as the outer layer 3 of the fire- or flame-resistant footwear 1 shown in FIG. 2 is concerned, it can preferably be formed from or comprise a flame-retardant material, in particular a leather or a flame-retardant textile material. The flame-retardant textile materials include, for example, aramid fibers, polyamide fibers, fibers with a higher halogen content, which may be self-extinguishing, for example. Preferably, leather is used as the material of the outer layer 3.

Furthermore, the outer layer 3 of the shoe 1 according to the invention of a breathable, especially water vapor permeable material, such as z. B. polyamides (especially nylon such. B. Codura ^® by the company. DuPont) may be formed. Examples of these are dense and resistant polyamide or nylon fabrics, in particular woven or knitted fabrics on this basis. In the case of breathable materials as the outer layer 3, an additional oleophobization and / or hydrophobing of the material of the outer layer 3 is recommended, in particular by a special impregnation in order to prevent or hinder the penetration of pollutants. Alternatively, the outer layer 3 but also consist of a plastic material, such. Butyl rubber, rubbers (eg chloroprene rubbers such as neoprenes or fluororubbers) or fluoroelastomers (eg ^Viton® from DuPont Dow Elastomers LLC); In this case, an oleophobization or hydrophobing can be omitted since these materials are already oleophobic and hydrophobic as such.

As far as the thickness of the material of the outer layer 3 is concerned, this can vary within wide ranges. According to the invention, however, it is preferable to provide a thickness of the outer layer 3 in the range from 0.5 mm to 4 mm, preferably 1 mm to 3 mm, preferably 1 to 2.5 mm.

The footwear 1 according to the invention preferably has a low-inflammable sole 9, wherein it is preferred according to the invention that the sole 9 is at least substantially impermeable to water or air. So that pollutants, such as chemical toxins or biological pollutants, can not penetrate through the sole 9 in the footwear 1, the sole 9 is generally formed from such a material which is at least substantially impermeable to such pollutants or their passage at least delayed. In general, the sole 9 for these purposes may consist of a plastic or rubber material known to those skilled in the art for these purposes. Such a material which is suitable for use in the context of the sole 9 is, for example, nitrile rubber. To ensure an efficient protective function, the shoe sole 9 should be sealingly connected to the layer structure 2, in particular in the region of the transition of the sole 9 and the layer structure 2; This is done in a manner known per se, for example by sewing, gluing, welding, etc. This also makes the area of the sole of the foot as well as the rest of the foot area sufficiently protected against pollutants and strong flame or fire.

As far as the material of the inner layer 4, in particular of the inner lining, of the footwear 1, so here any textile materials, preferably air-permeable textile materials may be used, such. For example, textile fabrics. Non-limiting examples are woven, knitted, knitted, laid, nonwoven or nonwoven fabrics. Preferably, a woven or knitted fabric or a non-woven fabric is used as the material for the inner layer 4. As previously discussed, the inner layer 4 may optionally also be provided with a fire-resistant or flame-retardant coating or impregnation.

As shown in FIG. 2, the footwear 1 according to the invention can have, in addition to the adsorption layer 5, at least one membrane 7 which can be arranged either between the outer layer 3 and the adsorption layer 5 or between the inner layer 4 and the adsorption layer 5. Preferably, the membrane 7 is arranged between the outer layer 3 and the adsorption layer 5, that is to say on the side facing away from the foot in the wearing state of the adsorption layer 5. The membrane 7 is preferably impermeable to water or impermeable to air and preferably to toxins, such as chemical or biological poisons , at least substantially impermeable or at least their average. Due to these special properties and due to the preferred arrangement of the membrane 7 between the outer layer 3 and the adsorption layer 5, it is ensured according to the invention that pollutants which may have penetrated through the outer layer 3 of the footwear 1 are already retained by the membrane 7, so that they consequently retain the membrane Do not even reach adsorption 5 or at best only in very small quantities; In this way, on the one hand, the capacity of the adsorption virtually never exhausted, and on the other hand, an additional protection for the wearer of the footwear 1 is provided by the presence of the membrane 7, so that a footwear with so-to-double protection function results from pollutants (nemliche on the one hand the blocking effect of the membrane 7 and on the other hand by the adsorption effect of the adsorption layer 5). Due to the presence of the membrane 7 is also achieved that the Footwear 1 is decontaminable and regenerable; because any contaminants that may have penetrated through the outer layer 3 can be removed or washed down by the membrane 7 by appropriate treatment methods, for example with suitable contamination solutions which are well known to the person skilled in the art for this purpose.

In order to further increase the wearing comfort of the footwear 1 according to the invention, it may be provided according to the invention that the membrane 7 is breathable, in particular permeable to water vapor. In particular, at 25 ^° C. and at a density of 50 μm, the membrane 7 should have a water vapor permeability of at least 12.5 l / m ² per 24 h, in particular at least 17.5 l / m ² per 24 h, preferably at least 20 l / m ² per 24 hours or even more (as measured by the inverted cup method according to ASTM E 96 at 25 ^° C.) (For more details on measuring water vapor transmission, WVT) See McCullough et al., "A compilation of standard methods for measuring water permeability of fabrics" in Meas. Sei. Technol. [Measurements Science and Technology] 14, 1402-1408, August 2003). This ensures a particularly high wearing comfort.

For these purposes, the membrane should have a water vapor resistance R _et under steady-state conditions - measured in accordance with DIN 31 093: 1993 of February 1994 ("Textiles - Physiological effects, measurement of the heat and water vapor transmission resistance under stationary conditions (sweating guarded-hotplate test)". ) or according to the same international standard ISO 11 092 - at 35 ⁰ C of at most 25 (m ² • Pascal) / watt, in particular at most 20 (m ² - Pascal) / watt, preferably at most 13 (m ² • Pascal) / watt , have a thickness of 50 microns.

The optionally provided membrane 7 may be a continuous, in particular closed and possibly microporous membrane 7. The thickness of the membrane 7 can vary within wide ranges; In general, it is in the range of 1 to 500 .mu.m, in particular 1 to 250 .mu.m, preferably 1 to 100 .mu.m, preferably 1 to 50 .mu.m, more preferably 2.5 to 30 .mu.m, most preferably 5 to 25 microns. The possibly provided membrane 7 should only be swelling or water-absorbent at best. In particular, the swelling capacity and / or the water absorption capacity of the membrane 7 should be at most 35%, in particular at most 25%, based on the intrinsic weight of the membrane 7. According to the invention suitable membranes 7 are at least substantially impermeable to liquids, in particular water and / or aerosols, or at least delay their passage. In order to achieve at most a slight swelling capacity, the membrane 7 should have no or substantially no strongly hydrophilic groups, in particular no hydroxyl groups. However, for purposes of slight swelling, the membrane 7 may have weakly hydrophilic groups, especially polyether groups.

The optionally present membrane 7 may consist of a plastic or polymer material or comprise such. Such a plastic or such a polymer may, for example, be a polyurethane, polyetheramide, polyesteramide, polyetherester, polytetrafluoroethylene or a cellulose-based polymer. Likewise, derivatives of the aforementioned compounds can be used. Preferably, the plastic or the polymer is a polyether ester or a polytetrafluoroethylene.

According to a particular embodiment, the optionally present membrane 7 may be formed as a multilayer laminate or as a multilayer composite. This laminate or this composite may consist of at least two, preferably at least three interconnected layers or layers. This particular embodiment of the membrane 7 makes it possible to combine barrier layer materials, each with different properties, in particular different water vapor permeabilities and barrier effects against pollutants, and thus to achieve an optimization of the properties of the membrane 7.

In order to increase the stability of the optionally present membrane 7, it is advantageous to arrange the membrane 7 on a flat carrier layer (not shown in the figures, for example on a preferably air-permeable textile material, such as, for example, a textile fabric). eg a woven, knitted, knitted, laid or non-woven fabric). To this For purposes, the membrane 7 may be laminated or laminated onto the carrier layer, in particular by means of a preferably point-wise applied adhesive. The planar support layer for the membrane 7 acts as a kind of support layer and increases the mechanical stability and tear resistance of the membrane 7, which is particularly important if the membrane 7 simultaneously serves as a carrier 10 for the adsorption material 6.

To increase the wearing comfort on the one hand and to achieve good wear resistance on the other hand is advantageous if the membrane 7 has a certain elasticity. In particular, it is advantageous if the membrane 7 can be stretched or stretched to at least 10%, in particular to at least 20%, preferably to at least 30%, at least in one direction. The layer structure 2 as a whole should also have a certain elasticity in addition to good flexibility for the aforementioned purposes; compared to the membrane 7, the elasticity of the layer structure 2 as a whole is lower, and in general the layer structure 2 is at least 5%, preferably at least 10%, stretchable in at least one direction.

As far as the adsorption layer 5 is concerned, it is generally discontinuous, i. H. the adsorption layer 5 generally comprises discrete adsorbing adsorbent particles 6 (eg based on activated charcoal) which may be fixed by means of an adhesive 11 on a carrier 10, as shown in FIG. The adsorption material 6 of the adsorption layer 5 is in particular an adsorbent material containing or consisting of activated carbon, for example a material based on activated carbon, in particular in the form of activated carbon particles and / or activated carbon fibers.

The good wearing properties of the footwear 1 according to the invention are additionally improved when using an activated carbon-based adsorption layer 5 by the buffer effect of the activated carbon, because the activated carbon serves as moisture or water storage or buffer (eg for foot perspiration). When using, for example, activated carbon as Adsorptionsmateri- al for the adsorption layer runs of up to about 250 g / m ² or more usual, so that z. For example, in the event of sweating, about 40 g / m ² wet can then be stored in the case of a breathable outer layer 3 then back to the outside.

In general, the adsorption layer 5 is formed as an adsorption surface filler. For this purpose, the adsorption layer 5 contains a chemical poisons adsorbing adsorption material 6, preferably based on activated carbon, for. Example in the form of activated carbon particles and / or activated carbon fibers, wherein the adsorbent material 6 is generally attached to a support 10, in particular a textile support. The adsorption material 6 of the adsorption layer 5 is preferably arranged on the side facing away from the foot in the wearing state of the support 10. In principle, it is also possible to apply the carrier 10 on both sides with adsorption material 6. In general, however, it is sufficient to apply the support 10 only on one side with adsorption material 6. The attachment of the adsorption material 6 to the support 10 is done in a conventional manner, for example by continuous or preferably discontinuous application of an adhesive 11 on the carrier 10, wherein the adsorption material 6 is then fixed to the adhesive 11. To increase the wearing comfort, in particular to avoid a stiffness of the carrier 10, a discontinuous, in particular punctiform adhesive application is preferred, ie the carrier 10 is advantageously printed discontinuously or punctiform in a preferably regular pattern or grid with the adsorption material 6. In this case, the actual adsorption material 6 can be laminated by a preferably air-permeable textile material, in particular a textile fabric, as cover layer, in order to reduce the mechanical loading of the adsorption material (eg with a fabric having a lower basis weight of 5 to 75 g / m ² , in particular 10 to 50 g / m ² , preferably 15 to 30 g / m ² ); However, the provision of such a covering or laminating layer is purely optional.

For efficient adsorption performance, it is preferred if at least 50%, in particular at least 60%, preferably at least 70%, particularly preferably at least 75%, very particularly preferably at least 80%, of the carrier 10 are exposed to adsorption material 6. It should be noted that the amount and the type, in particular the viscosity, of the adhesive 11 are designed such that the adsorption material 6 of the adsorption layer 5 at least 50%, in particular at least 60%, preferably at least 70%, is freely accessible to the chemical poisons to be adsorbed, ie is not completely pressed into the adhesive 11 or sinks.

As described above, the adsorption material 6 of the adsorption layer 5 can consist, for example, of discrete particles of activated carbon, preferably in granular form ("granular carbon"), particularly preferably in spherical form ("spherical carbon").

Grain, especially ball carbon, has the distinct advantage that it is extremely resistant to abrasion and very hard, which is in terms of wear properties of great importance. Preferably, the bursting pressure for a single particle of activated carbon, in particular activated carbon granules or globules, is generally at least about 5 N, in particular at least about 10 N, and can reach up to about 20 N. In the case of the carbon or ball carbon, the average diameter of the activated carbon particles is less than 1.0 mm, preferably less than 0.8 mm, preferably less than 0.6 mm, but is generally at least 0.1 mm. In this embodiment, the activated carbon particles are generally in an amount of 5 to 500 g / m ² , in particular 10 to 400 g / m ² , preferably 20 to 300 g / m ² , preferably 25 to 250 g / m ² , on applied to the substrate 10.

According to an alternative embodiment, the adsorption layer 5 as adsorption material 6 comprise activated carbon fibers, in particular in the form of activated carbon sheets. Such activated carbon sheets may have, for example, a weight per unit area of 20 to 200 g / m ² , in particular 50 to 150 g / m ² . These activated carbon sheets can be, for example, activated carbon fabrics, knitted fabrics, fabrics or composites, for example based on carbonized and activated cellulose and / or a carbonated and activated acrylonitrile.

Likewise, it is also possible to combine 5 activated carbon particles and activated carbon fibers together as adsorption material 6 of the adsorption layer. In this context, activated carbon particles have the advantage of a higher adsorption capacity, while activated carbon fibers have a better adsorption kinetics. The activated carbon used according to the invention preferably has an internal surface area (BET) of at least 800 g / m ² , in particular of at least 900 g / m ² , preferably of at least 1000 g / m ² , preferably in the range of 800 to 1500 g / m ² , on.

To increase the adsorption efficiency or the adsorption performance, the adsorption material 6 of the adsorption layer 5, in particular the activated charcoal particles or the activated carbon fibers, can also be impregnated with at least one catalyst. Suitable catalysts according to the invention are, for example, enzymes and / or metal ions, preferably copper, silver, cadmium, platinum, palladium, zinc and / or mercury ions. The amount of catalyst can vary widely; In general, it is 0.05 to 12 wt .-%, preferably 1 to 10 wt .-%, particularly preferably 2 to 8 wt .-%, based on the weight of the adsorption layer fifth

In the context of the present invention it can be provided that between the inner layer 4 and the adsorption layer 5 or between the inner layer 4 and the membrane 7 - depending on the sequence of layers 4, 5 and 7 in the layer structure 2 - also a spacer layer 8 is arranged which may, for example, be in the form of a nonwoven, a thin foam layer or a textile fabric (for example a knitted fabric). Advantageously, the spacer layer 8 is arranged directly adjacent to the inner layer 4 (ie, on the side of the inner layer 4 facing away from the foot in the wearing state). The additional spacer layer 8 has the advantage that it reduces the mechanical stress of the adsorption layer 5 and the membrane 7, because between the inner layer 4 on the one hand and the adsorption layer 5 or membrane 7 on the other hand, an additional layer is present, which intercept mechanical loads or can dampen. On the other hand prevents such an arrangement that impurities originating from the wearer, such. As body sweat, the adsorption material 6 of the adsorption layer 5 unnecessarily burden. In this way, therefore, the efficiency of the adsorption layer 5 is increased. On the other hand, the additional spacing layer 8 increases the wearing comfort of the footwear 1 according to the invention, in particular the soft wearing feeling. In general, the individual layers 3, 4, 5, 7 and 8 of the layer structure 2 are connected to each other; This is done by methods known per se for this purpose (eg by gluing, welding, sewing, recessed etc.). Advantageously, the bonding or fixing of the individual layers 3, 4, 5, 7 and 8 of the layer structure takes place seamlessly with each other, preferably without damaging the individual layers 3, 4, 5, 7 and 8 (eg by gluing, welding, etc .). In the event that the layers 3, 4, 5, 7 and 8 are at least partially sewn or the like, it is recommended to seal the seams (eg with a so-called seam-sealing tape). In particular, the individual layers 3, 4, 5, 7 and 8 of the layer structure form a coherent composite.

The footwear according to the invention has the decisive advantage that on the one hand - due to the fire or flame retardant coating or impregnation - fire or flame resistant properties and on the other hand - due to the adsorption - a high protection against pollutants, such as chemical toxins in one single item of clothing have been united. Because of these properties, the footwear according to the invention is particularly suitable for firefighting and decontamination use, and this in particular with integration into a total protection concept, for example in combination with a fire- or flame-resistant protective suit.

Due to the high efficiency of the protective function of the Adsoiptionsschicht, which can be increased if necessary by the use of a membrane, where appropriate, can also breathable shoe outer materials such. As leather, so that in this way the wearing comfort can be increased without the wearer of the footwear is exposed to increased risk through the use of a breathable shoe outer material.

Due to the extraordinarily high protective function of the footwear according to the invention, the footwear can also be used in contaminated areas, for example in the context of a decontamination use, since the footwear according to the invention also has an efficient protection against chemical pollutants. Due to the high fire and flame resistance of the footwear according to the invention, the footwear is particularly suitable for use in the context of fire fighting at high temperatures. In this regard, due to the good flame resistance of the shoe according to the invention, the wearer of the footwear is on the one hand protected from the effects of fire; On the other hand, prevents the fire or flame retardant coating or impregnation destruction or burning of the footwear as such, so that even under such adverse conditions effective protection for the wearer of the footwear is maintained.

Due to the good flexibility of the individual layers of the footwear according to the invention or of the layer structure as a whole not only a good wearing comfort is achieved, but also a good wear resistance of the footwear according to the invention.

The footwear according to the invention can be produced in a manner known per se. This is well-known in the manufacture of footwear expert, so that in this regard requires no further comments.

Further embodiments, modifications and variations of the present invention will be readily apparent to those skilled in the art upon reading the description and practicable without departing from the scope of the present invention.

Claims

claims:

1. Fire and / or flame resistant footwear (1), especially boots for firefighters, with protective function against pollutants, such as chemical toxins, wherein the footwear (1) has a multi-layered structure (2), wherein the layer structure (2) one in the worn state facing away from the foot outer layer (3) and one of the outer layer (3) associated with the foot facing inner layer (4), in particular a Schuhinnenfutter, wherein between see the outer layer (3) and the inner layer (4) additionally an adsorption layer (5) with a adsorbent adsorbing adsorbent material (6), in particular activated carbon, and wherein at least the outer layer (3) is additionally equipped with a fire and / or flame retardant coating or impregnation (12).

2. footwear according to spoke 1, characterized in that the fire and / or flame retardant coating or impregnation (12) is formed on the basis of (i) phosphoric acid compounds, especially phosphoric acid esters; (H) metal salts, especially antimony or aluminum salts; (iii) fluorinated polymers; and mixtures of two or more of the aforementioned compounds.

3. footwear according to spoke 1 or 2, characterized in that the outer layer (3) of a flame-retardant material, in particular a leather and / or a flame-retardant textile material, preferably leather, is formed.

4. Footwear according to one of the preceding claims, characterized in that the footwear (1) additionally comprises at least one membrane (7), in particular wherein the membrane (7) between the outer layer (3) and the adsorption layer (5) and / or between the inner layer (4) and the adsorption layer (5), preferably between the outer layer (3) and the adsorption layer (5) is arranged.

5. Footwear according to claim 4, characterized in that the membrane (7) is impermeable to water and / or impermeable to air.

6. Footwear according to claim 4 or 5, characterized in that the membrane (7) breathable, in particular water vapor permeable, is formed.

7. Footwear according to one of claims 4 to 6, characterized in that the membrane (7) comprises a plastic and / or a polymer and / or consists thereof, in particular wherein the plastic and / or the polymer from the group of polyurethanes, polyetheramides , Polyester amides, polyether esters, polytetrafluoroethylenes and / or polymers based on cellulose and / or derivatives of the abovementioned compounds, preferably polyether esters and polytetrafluoroethylenes.

8. Footwear according to one of the preceding claims, characterized in that the footwear (1) has a preferably flame-resistant sole (9), in particular wherein the sole (9) is at least substantially impermeable to water and / or air and / or in particular wherein the sole (9) consists of a plastic and / or rubber material.

9. Footwear according to one of the preceding claims, characterized in that the adsorption layer (5) is discontinuous and / or that the adsorption layer (5) is designed as an adsorption surface filter.

10. Footwear according to one of the preceding claims, characterized in that the adsorption material (6) on a support (10), in particular a textile support, is fixed, in particular wherein the adsorption material (6) on the side facing away in the wearing state of the foot the carrier (10) is arranged.

11. Footwear according to one of the preceding claims, characterized in that the adsorption material (6) of the adsorption layer Material based on activated carbon, in particular in the form of activated carbon particles and / or activated carbon fibers, is.

12. Footwear according to one of the preceding claims, characterized in that the adsorption layer (5) as adsorption material (6) discrete particles of activated carbon, preferably in the form of grains ("grain") or spherical form ("ball").

13. Footwear according to one or more of the preceding claims, characterized in that the adsorption layer (5) as adsorption material (6) activated carbon fibers, in particular in the form of an activated carbon sheet, comprises, in particular wherein the activated carbon sheet has a basis weight of 20 to 200 g / m ² , in particular 50 to 150 g / m, and / or in particular wherein the Aktivkohleflä- chengebilde an activated carbon fabric, knitted fabric, or composite, in particular based on carbonized and activated cellulose and / or a carbonized and activated Acrylonitrile, is.

14. Footwear according to one or more of claims 11 to 13, characterized in that the activated carbon has an inner surface area (BET) of at least 800 m ² / g, in particular of at least 900 m ² / g, preferably of at least 1,000 m ² / g , preferably in the range of 800 to 1500 m ² / g.

15. Footwear according to one or more of the preceding claims, characterized in that the adsorption material (6) of the adsorption layer (5), in particular the activated carbon particles and / or activated carbon fibers, also impregnated with at least one catalyst, in particular wherein as a catalyst enzymes and / or Metal ions, preferably copper, silver, cadmium, platinum, palladium, zinc and / or mercury ions are used, and / or in particular wherein the amount of catalyst 0.05 to 12 wt .-% _5, preferably 1 to 10 wt .-%, particularly preferably 2 to 8 wt .-%, based on the weight of the adsorption layer (5).

16. Footwear according to one of the preceding claims, characterized in that between the inner layer (4) and the adsorption layer (5) or between the inner layer (4) and the membrane (7) also has a spacer layer (8), preferably in the form of a nonwoven (Nonwo- ven), a foam layer or a textile fabric, in particular knitted fabric is arranged.

17. Footwear according to one or more of the preceding claims, characterized in that the individual layers (3, 4, 5, 7, 8) of the layer structure (2) are respectively connected to each other and / or that the individual layers (3, 4, 5, 7, 8) of the layer structure (2) form a composite.