AT506390B1 - FABRIC CONSTRUCTION FOR PROTECTIVE CLOTHING - Google Patents

Description

Stiff patent AT506 390 B1 2009-09-15

Description: The invention relates to a fabric construction for protective clothing for emergency personnel, comprising an outer fabric, a lining material and a wet barrier arranged between the outer fabric and the lining material, the wet barrier having a climate membrane laminated on a backing and its use for production protective clothing for emergency responders, in particular firefighter jackets and pants.

Multi-layered garments with an outer fabric, a wet barrier and a lining material are often worn in the industry and by emergency services, such as military, police or fire. Often, these garments must be heat resistant, flame retardant and tear resistant, must not allow water, such as fire water or rain, but moisture that is caused by the sweat, from the body of the wearer to the outside.

Usually, the outer fabric is made of a heat-resistant and flame-retardant material, while the moisture barrier is arranged between the outer fabric and lining material and has a two-layer construction. In this case, a climate membrane is applied to a carrier, which on the one hand keeps away from the outside penetrating moisture such as rain or fire water from the skin of the wearer and on the other hand transported moisture on the skin to the outer surface of the garment. For this purpose, the climate membrane of the moisture barrier is arranged to the outer fabric, while the support material of the moisture barrier is arranged towards the lining material. The lining material may be quilted with an additional fleece.

Such a fabric structure usually has a water vapor transmission resistance Ret of 25 - 30 m 2 Pa / W. This value is a measure of the breathability of the material, with lower levels of greater breathability. A higher breathability of the material reduces the heat stress, which in particular a circuit breakdown by overheating, for example, on hot days and indoor firefighting is avoided. At the same time, however, it is necessary to maintain or improve the waterproofness of the protective clothing, as well as the heat transfer. How important this Ret value is is, for example, documented in EN 343: 2007 (protective clothing against rain). Here were created 3 classes:

Class 1 (worst grade): Ret > 40 m2Pa / W,

Class 2: 20 < Ret < 40 m2Pa / W

Class 3: Ret < 20 m2Pa / W

Protective clothing according to Class 1 has a limited wearing period.

For the classification of protective clothing numerous other standards are available, with the help of which the material or the tissue structure can be assigned to different performance classes.

Since protective clothing for firefighting according to EN 469: 2005 places high demands on the insulation of the material structure and thereby, naturally, the breathability suffers, consideration was given to the determination of the Ret in the EN 469 and the best class with Ret < 30 m2Pa / W. If the Ret limits of the performance classes according to EN 343: 2007 were also required in EN 469: 2005, the provision of protective clothing for the fire department according to EN 469: 2005 would not be possible or only in a very limited area.

Although novel fabric constructions improve the breathability to about 20 m 2 Pa / W, without achieving a significant improvement in the values for the heat transfer Xf and Xr.

[0009] EN 367 describes the heat transfer Xf in the event of flame exposure, whereby in a first performance stage (according to the instructions of most of the state fire brigade associations) it is 1/6

oiteüsäisd'is patenuimt AT506 390 B1 2009-09-15 finally provided for the protective trousers) the heat transfer index HTI24 > 9.0 seconds and HTI24 - HTI12 > 3 s, while in the higher power level 2 a HTI24 > 13.0 s and HTI24 - HTI12 > 4 s can be reached.

The HTI12 or HTI24 indicates the time in which the temperature on the back of a material from the ambient temperature (usually 25 ° C) by 12 ° C or 24 ° C increases when a flame on the front Material is kept. Since the wearer of the protective clothing usually experiences a first pain when the temperature rises by 12 ° C. and the first burn injuries occur when the temperature rises by 24 ° C., the difference between the two values is a measure of the time available to the wearer of the protective clothing is about to move away from a danger area as soon as he feels a first pain due to, for example, flame exposure.

The EN ISO 6942 relates to the heat transfer Xr upon exposure to radiation, wherein in stage 1 (according to the supporting instructions of most national fire brigade associations provided exclusively for the protective pants) a radiant heat transfer index RHTI40 > 10.0 s and RHTI24 - RHTI12 > 3 s and in step 2 a RHTI40 > 18.0 s and RHTI24 - RHTI12 > 4 s can be reached.

In EN 20811, the performance levels for the water-tightness Y are described, wherein a pressure increase of < 20 kPa of power level 1 and a pressure increase of > 20 kPa of power level 2 is assigned.

The water vapor passage resistance is also regulated in EN 31092, wherein in the power level 1 a Ret value of > 30 m2Pa / W and in power level 2 of < 30 m2Pa / W are required.

The prior art fabric construction described above generally meets the conditions for power stage 2.

It is therefore an object of the invention to provide a material that provides increased breathability with higher protection against burn injuries and not only meets the requirements of performance level 2 of the above standards, but improved values compared to the known Has materials.

This object is achieved in that the climate membrane of the moisture barrier faces the lining material. Investigations by the Applicant have shown that when the climate membrane is arranged to support the garment, there is an increased removal of the moisture from the skin surface of the wearer, whereby an improved wearing comfort is achieved.

In a preferred embodiment of the invention, the wet barrier on its the outer material-facing side of the carrier spacer elements. The use of spacers between lining and wet barrier is well known. In particular, they serve to form an insulating air cushion to reduce the effect of heat on the wearer. In the present invention, however, these spacer elements are arranged between the outer fabric and the wet barrier and are located on the side facing the outer material of the carrier, in order to achieve an improvement in the breathability.

Preferably, the spacer elements are made of plastic, evenly distributed on the outer material side facing the carrier and formed substantially knob-like. Such " dots " are particularly suitable for forming an air cushion between the additional fabric and the carrier of the wet barrier and thus in turn contribute to improved heat resistance and breathability.

Alternatively, in a further embodiment of the invention, the outer fabric on its side facing the moisture barrier side spacer elements. Preferably, in this case, the spacer elements are evenly distributed on the side of the outer material facing the moisture barrier and formed substantially rib-like.

Advantageously, an additional fabric is disposed between the outer fabric and wet barrier. This additional fabric provides increased heat resistance of the fabric patch

asteifcscfistiiö patent AT506 390B1 2009-09-15 construction, in particular an increase of the heat transfer index and the radiation heat transfer index is achieved. This makes it possible for the task forces, even at high temperatures, to stay longer on site. Since according to the invention between the outer fabric and the spacer elements preferably an additional tissue is arranged, remains in violation of the outer fabric, for example, when tearing the outer fabric of sharp objects, the air cushion, so that here a further improvement of the heat protection is achieved while improving the breathability.

In a particularly preferred embodiment of the invention, the additional fabric is a knit, which advantageously has a specific weight of at most 150 g / m 2. By using a knitted material, the weight of the fabric construction of the invention increases only slightly with respect to the weight of a prior art material construction. Furthermore, the fabric naturally has an irregular surface, whereby an additional air cushion is formed, which in turn exerts a positive influence on the heat protection.

The fabric structure described above is particularly suitable for use in the manufacture of protective clothing for emergency personnel, in particular for the production of firefighter jackets and firefighter pants with increased breathability and improved heat protection.

In the following, the invention is explained in detail with reference to non-limiting embodiments with associated figures.

Therein 1a and 2a each show a tissue structure according to the prior art and Figs. 1b and 2b show two embodiments of the tissue structure according to the invention.

As shown in Fig. 1a, a fabric structure 10 according to the prior art comprises an outer fabric 2 and a lining fabric 3, wherein a moisture barrier 4 between the outer fabric 2 and 3 lining material is arranged. The lining fabric is here quilted with a thermal nonwoven (not shown).

The moisture barrier 4 has a climate membrane 42 which faces the outer fabric 2. This climate membrane 42 is laminated onto a carrier 41, which gives the climate membrane 42 the necessary mechanical strength. Such a layer structure 10 of different materials usually has a water vapor transmission resistance (Ret) of about 25 to 27 m 2 Pa / W. The thermal transitions Xf, Xr of such layer structures 10 are usually: HTI24 = 18-20 S RHTI24 = 21-22 s HTI24-HTI1Z = 5.8-6.5 s RHTI24-RHTI12 = 6-7 s In some cases Tissue assemblies 10 according to the prior art, a lining fabric 3, instead of a thermal nonwoven at regular intervals rib-like structures in the form of about 1 - 2 mm thick, attached to the lining fabric cords (usually in the warp direction) at a distance of about 8 - 10 mm , having. Such a layer structure 10 usually has a water vapor transmission resistance (Ret) of about 20 to 23 m 2 Pa / W. The thermal transitions Xf, Xr of such layer structures 10 are usually:

HTI24 = 16.5-18 s RHTI24 = 20-21 s

HTI24 - HTIi2 = 5.0 S RHTI24 - RHTIi2 = 5 - 6 S

The heat transfer is thus worse with improved breathability than in the example described above according to FIG. 1a.

If, however, this rib structure is attached to the side of the outer fabric adjacent to the wet barrier and the climate membrane faces the lining, the breathability of the fabric structure according to the invention is significantly increased and, at the same time, the heat protection is improved. [0030] According to FIG. 1b, the fabric structure 100 according to the invention also has, in a first embodiment, an outer fabric 2 and a lining material 3 (but without thermal fleece finish) and a wet barrier 4, FIG. wherein the climatic membrane 42 of the wet barrier 4 faces the lining material 3. In addition, a fabric 5 is arranged between the outer fabric 2 and the carrier 41 of the wet barrier 4. This knitted fabric 5 acts as an insulating fabric or spacer and on the one hand increases the thermal resistance or the heat transfer indices HTI and RHTI by 15% on average, while the respiratory activity or the water vapor transmission resistance Ret improves by an average of 35% compared to a fabric construction according to FIG. 1a.

An improvement in the breathability and the heat protection can be achieved even with tissue structures according to the prior art, which - as described for example in Fig. 2a - on the climate membrane 42 opposite sides of the substrate 41 of the wet barrier 4 spacers 43 have. The spacer elements 43 are made for example of an elastic plastic and distributed substantially uniformly over the surface of the carrier. They form the lining material 3 through an air cushion, which act against heat from outside, such as a fire, as insulation.

In the fabric construction 101 according to the invention according to a second embodiment according to FIG. 2b, the wet barrier 4 is in turn arranged such that the spacer elements 43, the so-called "dots", face the fabric 5 arranged between the outer fabric 2 and the wet barrier 4. In this fabric construction 101 as well, it has been found that the water vapor transmission resistance Ret and thus the breathability of the material 101 can be somewhat improved despite the additional knitwear 5, while the heat protection was improved by 30% to 40%.

By the inventive fabric 5 in combination with the inventive arrangement of the wet barrier 4, namely a mirror-inverted state of the art moisture barrier 4, the breathability of the fabric structure 100,101 and its heat resistance can be significantly improved. The knit 5 preferably has a rib structure, as well as a waffle structure or 3D optics can be achieved by suitable knitting technique, so that the tissue has a large volume with low weight. In this way, an air cushion is formed in the fabric 5 itself and in the interstices between the fabric 5 and moisture barrier 4 or outer fabric 2, which can sink in particular the effect of heat on the wearer of the protective clothing. Furthermore, the fabric 5 protects the underlying moisture barrier 4 when the outer fabric 2 is torn, for example, or breaks up by flame contact. It is preferably made of a heat-resistant material and in particular withstands mechanical stresses.

A further possibility to form air cushions between the individual layers of the fabric construction according to the invention is the attachment of substantially rib-like structures to one or more layers in the form of padded cords or embroidery, in particular to outer fabric and / or lining material.

It is understood that the present invention is not limited to the embodiments presented above. Essential for the invention is that the climate membrane of the wet barrier faces the lining to achieve an increase in breathability, while preferably at the same time an additional tissue between the outer fabric and wet barrier is arranged.

This additional fabric can be made of a variety of materials, but preferably has a large volume with low weight. 4.6

Claims (9)

1. A fabric construction (100, 101) for protective clothing for emergency responders, comprising an outer fabric (2), a lining fabric (3) and an outer fabric (2) and Lining (3) arranged wet barrier (4), wherein the moisture barrier (4) has a climate membrane (42) which is laminated on a carrier (41), characterized in that the climate membrane (42) of the wet barrier (4) facing the lining material (3). 2. fabric structure (100, 101) according to claim 1, characterized in that the wet barrier (4) on its the outer fabric (2) facing side of the carrier (41) spacer elements (43). 3. fabric structure (100,101) according to claim 2, characterized in that the spacer elements (43) are made of plastic, evenly distributed on the outer material (2) facing side of the carrier (41) and are formed substantially knob-like. 4. fabric structure (100, 101) according to claim 1, characterized in that the outer fabric (2) on its the wet barrier (4) facing side spacer elements. 5. fabric structure (100,101) according to claim 4, characterized in that the spacer elements evenly distributed on the wet barrier (4) facing side of the outer fabric (2) and are formed substantially rib-like. 6. fabric structure (100, 101) according to any one of claims 1 to 5, characterized in that between the outer fabric (2) and wet barrier (4) an additional layer, for example a fabric is arranged. 7. fabric structure (100, 101) according to claim 6, characterized in that the additional layer is a knitted fabric (5). 8. fabric structure (100,101) according to claim 5, characterized in that the knitted fabric (5) has a specific gravity of at most 150 g / m2. 9. Use of a fabric structure (100, 101) according to any one of claims 1 to 8 for the production of protective clothing for emergency personnel, in particular of firefighter jackets and pants. For this 1 sheet drawings 5/6