Accessories
and spareparts
Double-layer protective hood ensuring high comfort and protection against thermal risks.
Double-layer protective hood in combination with 3-layer NOMEX® NANO FLEX material.
It serves firefighters as a distinction of rank or an increase in protection during training in containers.
Removable neoprene knee reinforcement. 2 thickness options: 6 mm and 9 mm
It is a very solid and flexible material, which adjusts to the shape of the knee and thus makes a perfect protection while kneeling.
Removable neoprene knee reinforcement. 2 thickness options: 6 mm and 9 mm
It is a very solid and flexible material, which adjusts to the shape of the knee and thus makes a perfect protection while kneeling.
Elastic braces with reinforcement in the back part. They are adjustable with the use of plastic clamps.
Elastic braces with reinforcements in the shoulder part and the back part. They are adjustable with the use of plastic clamps.
The tank cover is made of NOMEX®. It it upholstered throughout its length, has a volume of 6,9 l and is equipped with a reflective stripe.
The tank cover is made of NOMEX®. It it upholstered throughout its length, has a volume of 6,9 l and is equipped with a reflective stripe.
Special treatment applied on outershell fabric. It ensures protection against liquid chemicals and water with minimum 25 washing cycles before any reimpregnation. Provides protection against liquid chemicals and water for at least 25 wash cycles, without the need for additional impregnation.
It is a special technology of the SOFILETA company applied mainly on fabrics for external use. This impregnation provides long-term protection against water, oils and chemicals.
It is a special modification of the SOFILETA company applied mainly on materials inside clothes. The system ensures fast moisture removal from the user’s body, fast drying and high comfort.
DEVA’s patented system for protecting sewing threads against mechanical damage. The sewing threads are protected in the formed groove of reflective materials and are thus highly abrasion-resistant.
It is DuPont™ programme for European partners of the company who fulfil the highest quality of products when Nomex® materials are used.
Mannequin Test
It is a method of measuring and predicting the level of burns of a firefighter in an extreme environment. The device is equipped with sensors that evaluate the level of protection of suits during this thermal test according to ISO 13506.
It is a product line of 3M products designed primarily for high visibility in day and night conditions. The products are highly fluorescent and retroreflective, possibly with reduced flammability.
Special treatment applied on outershell fabric. It ensures protection against liquid chemicals and water with minimum 25 washing cycles before any reimpregnation. Provides protection against liquid chemicals and water for at least 25 wash cycles, without the need for additional impregnation.
It is a special technology of the SOFILETA company applied mainly on fabrics for external use. This impregnation provides long-term protection against water, oils and chemicals.
It is a special modification of the SOFILETA company applied mainly on materials inside clothes. The system ensures fast moisture removal from the user’s body, fast drying and high comfort.
It is a highly durable technology from IBENA for impregnating fabrics intended mainly for firefighters. The outer layer of suits is thus able to withstand water and chemicals without impregnation for up to 30 maintenance cycles.
DEVA’s patented system for protecting sewing threads against mechanical damage. The sewing threads are protected in the formed groove of reflective materials and are thus highly abrasion-resistant.
Requirements and test methods for protective clothing for firefighters
The European Standard sets out the minimum values of the technical requirements for protective clothing designed for use in fire-fighting operations. The requirements of the standard cover design, protection against heat and flame, mechanical and chemical parameters, comfort and visibility of the suit. It covers the general design of the suit, the technical values of the materials used, the test methods for determining the technical values, marking and information provided by the manufacturer. It gives the technical requirements for two classes of design.
Protective clothing – Electrostatic properties
This part specifies material and construction requirements for electrostatic charge dissipating protective clothing, including hoods and caps, used as part of a total earthing system.
Protection against rain
This standard specifies requirements and test methods for the performance of materials and finished garment components for protection against the effects of precipitation (e.g. rain, snow), fog and ground moisture. Garment components for protection against effects other than precipitation (e.g. splash water, wool) are not covered by this standard.
Protective clothing against the thermal effects of an electric arc
This part of IEC 61482 specifies test methods for measuring the resistance values of materials and clothing to the thermal effect of an arc performed for the use of heat- and fire-resistant clothing of workers exposed to the effects of an electric arc. The controlled and forced electric arc in the test circuit is used to classify the material and clothing in two defined arc protection classes.
Protective clothing for work in which an electric arc is deliberately used, e.g. welding, plasma torch, is not covered by this standard.
Requirements and test methods for protective clothing for firefighters
The European Standard specifies the minimum values of the technical requirements for protective clothing designed for use in firefighting operations. The requirements of the standard cover design, protection against heat and flame, mechanical and chemical parameters, comfort and visibility of the suit. It covers the general design of the suit, the technical values of the materials used, the test methods for determining the technical values, marking and information provided by the manufacturer. It gives the technical requirements for two classes of design.
Protective clothing – Electrostatic properties
This part specifies material and construction requirements for electrostatic charge dissipating protective clothing, including hoods and caps, used as part of a total earthing system.
Protection against rain
This standard specifies requirements and test methods for the performance of materials and finished garment components for protection against the effects of precipitation (e.g. rain, snow), fog and ground moisture. Garment components for protection against effects other than precipitation (e.g. splash water, wool) are not covered by this standard.
Requirements and test methods for protective clothing for firefighters
The European standard specifies minimum values for technical requirements for protective clothing designed for use in firefighting. The requirements of the standard cover design, protection against heat and flame, mechanical and chemical parameters, comfort and visibility of the suit. It covers the general design of the garment, the technical values of the materials used, the test methods for determining the technical values, the markings and the information provided by the manufacturer. It lists the technical requirements for the two design classes.
Protective clothing – Electrostatic properties
This part specifies the material and construction requirements for electrostatic dissipating protective clothing, including hoods and caps, used as part of a general earthing system.
Clothing for protection against heat and flame.
This International Standard specifies the technical requirements for garments made of flexible materials which are intended to protect the wearer’s body, excluding hands, from heat and / or fire. The technical requirements given in this International Standard apply to garments that could be intended for a wide range of applications, where garments with flame retardant properties are required, and where the user may be exposed to radiant, convective or contact heat or molten metal particles.
Requirements and test methods for protective clothing for firefighters
The European standard specifies minimum values for technical requirements for protective clothing designed for use in firefighting. The requirements of the standard cover design, protection against heat and flame, mechanical and chemical parameters, comfort and visibility of the suit. It covers the general design of the garment, the technical values of the materials used, the test methods for determining the technical values, the markings and the information provided by the manufacturer. It lists the technical requirements for the two design classes.
Requirements and test methods for protective clothing for firefighters
The European standard specifies minimum values for technical requirements for protective clothing designed for use in firefighting. The requirements of the standard cover design, protection against heat and flame, mechanical and chemical parameters, comfort and visibility of the suit. It covers the general design of the garment, the technical values of the materials used, the test methods for determining the technical values, the markings and the information provided by the manufacturer. It lists the technical requirements for the two design classes.
Protective clothing – Electrostatic properties
This part specifies the material and construction requirements for electrostatic dissipating protective clothing, including hoods and caps, used as part of a general earthing system.
Protective clothing – Electrostatic properties
This part specifies the material and construction requirements for electrostatic dissipating protective clothing, including hoods and caps, used as part of a general earthing system.
Rain protection
This standard specifies requirements and test methods for the construction of materials and finished garments to protect against the effects of precipitation (eg rain, snow), fog and ground moisture. Clothing components for protection against effects other than precipitation (eg splashing water, waves) are not the subject of this standard.
Rain protection
This standard specifies requirements and test methods for the construction of materials and finished garments to protect against the effects of precipitation (eg rain, snow), fog and ground moisture. Clothing components for protection against effects other than precipitation (eg splashing water, waves) are not the subject of this standard.
Ochranné oděvy – Elektrostatické vlastnosti
Tato část specifikuje požadavky na materiál a konstrukci pro ochranný oděv rozptylující elektrostatický náboj, včetně kapucí a čepic, používaných jako součást systému s celkovým uzemněním.
Oděvy na ochranu proti teplu a plameni.
Tato mezinárodní norma stanovuje technické požadavky oděvů vyrobených z ohebných materiálů, které jsou určeny k ochraně těla nositelů s výjimkou rukou, před teplem a/nebo ohněm. Technické požadavky uvedené v této mezinárodní normě platí pro oděvy, které by mohly být určeny pro široký okruh použití, kde jsou potřebné oděvy s vlastnostmi proti omezenému šíření plamene, a kde uživatel může být vystaven sálavému, konvekčnímu nebo kontaktnímu teplu nebo částicím rozstříknutého roztaveného kovu.
Requirements and test methods for protective clothing for firefighters
The European standard specifies minimum values for technical requirements for protective clothing designed for use in firefighting. The requirements of the standard cover design, protection against heat and flame, mechanical and chemical parameters, comfort and visibility of the suit. It covers the general design of the garment, the technical values of the materials used, the test methods for determining the technical values, the markings and the information provided by the manufacturer. It lists the technical requirements for the two design classes.
Protective clothing – Electrostatic properties
This part specifies the material and construction requirements for electrostatic dissipating protective clothing, including hoods and caps, used as part of a general earthing system.
Protective clothing – General requirements
This standard specifies the general requirements for the design of protective clothing in terms of ergonomics, safety, size designation, aging, compatibility and marking of protective clothing and the information that is supplied by the manufacturer together with protective clothing.
This standard cannot be used alone, but only in combination with a standard containing specific requirements for the design of a product providing protection.
Protective clothing – Electrostatic properties
This part specifies the material and construction requirements for electrostatic dissipating protective clothing, including hoods and caps, used as part of a general earthing system.
Clothing for protection against heat and flame.
This International Standard specifies the technical requirements for garments made of flexible materials which are intended to protect the wearer’s body, excluding hands, from heat and / or fire. The technical requirements given in this International Standard apply to garments that could be intended for a wide range of applications, where garments with flame retardant properties are required, and where the user may be exposed to radiant, convective or contact heat or molten metal particles.
Protective clothing for firefighters – Laboratory test methods and technical requirements for the design of clothing for firefighting in open terrain
This European Standard specifies test methods and minimum technical requirements for protective clothing intended to protect the wearer’s body, with the exception of the head, hands and feet, in the field of open field fires and accompanying activities. This European Standard covers the general design of clothing, the minimum design of the materials used and the test methods for determining these classes.
Protective clothing – General requirements
This standard specifies the general requirements for the design of protective clothing in terms of ergonomics, safety, size designation, aging, compatibility and marking of protective clothing and the information that is supplied by the manufacturer together with protective clothing.
This standard cannot be used alone, but only in combination with a standard containing specific requirements for the design of a product providing protection.
Požadavky a zkušební metody pro ochranné oděvy pro hasiče
V evropské normě jsou stanoveny minimální hodnoty technických požadavků na ochranný oděv navržený pro používání při zásazích proti požárům. Požadavky normy pokrývají provedení, ochranu proti teplu a plamenu, mechanické a chemické parametry, pohodlí a viditelnost obleku. Pokrývá obecné provedení oděvu, technické hodnoty používaných materiálů, zkušební metody pro stanovení technických hodnot, značení a informace poskytované výrobcem. Jsou v ní uvedeny technické požadavky pro dvě třídy provedení.
Ochranné oděvy – Elektrostatické vlastnosti
Tato část specifikuje požadavky na materiál a konstrukci pro ochranný oděv rozptylující elektrostatický náboj, včetně kapucí a čepic, používaných jako součást systému s celkovým uzemněním.
Protective clothing – Electrostatic properties
This part specifies the material and construction requirements for electrostatic dissipating protective clothing, including hoods and caps, used as part of a general earthing system.
Requirements for the design of protective clothing for technical interventions.
This European Standard specifies minimum requirements for technical intervention clothing. Technical interventions include activities related to the environment and conditions associated with scenarios that occur in traffic accidents, at work, often long-term, inside collapsed buildings and in their vicinity after natural disasters (earthquakes, landslides, etc.) where protection is needed. against mechanical risks, to a limited extent also against heat and flame.
High visibility clothing
This International Standard specifies requirements for high visibility clothing that is able to visually signal the presence of a user to operate vehicles or other mechanized equipment in any daylight and daylight conditions in the dark. It contains quality requirements for both color and visibility, as well as for minimum areas and placement of materials on protective clothing.