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    • Fire protection curtains

      Fire protection curtains

      In case of fire, fire protection curtains close wall and ceiling openings. Their construction (roll-down or folding technique) and the use of different fabrics provide for a wide range of applications as well as different protection goals, classifications and time classes. The casing and guide rails of the highly flexible systems blend almost invisibly into the building and allow plenty of scope for sophisticated architecture and open room concepts.

    • Conveyor system closures

      Conveyor system closures

      Various production and logistics processes call for the most diverse types of conveyor systems. If these conveyor lines pass through fire-retardant or fire-resistant walls or ceilings, the openings required for this purpose must be provided with fire protection closures to prevent the spread of fire through the conveyor system or the goods conveyed. In the event of fire, conveyor system closures (CSC for short) must close these openings immediately and automatically. Fire resistance classified according to DIN EN 13501-2 is just as important as the smooth clearance of the closing areas in the event of a fire.

    • Smoke curtains

      Smoke curtains

      A smoke apron is a part of a smoke control system which also includes other components such as natural smoke and heat exhaust ventilators (EN 12101-2) and mechanical smoke and heat exhaust ventilators (EN 12101-3). Smoke aprons restrict the movement of combustion gases within a building in case of fire.

    • Smoke protection curtains

      Smoke protection curtains

      Once closed, smoke protection curtains (SPC) restrict the passage of smoke during the phase of fire formation, so that in the event of a fire, there is enough time to rescue people and animals from the room behind the curtain and to recover material assets without the need for respiratory equipment.

    • Tube sealings

      Tube sealings

      The solution for issues with fire protection dampers in ventilation and air conditioning systems in conveyor processes. Stöbich offers fire protection for pneumatic conveyor lines the closing elements of which are not exposed to the flow of conveyed material. This way, the closing element cannot be damaged or contaminated by abrasive conveyed goods.

    • Control units

      Control units

      Each automatic fire protection system needs a control unit. They are critical to safety, because a failure of this function means that the entire investment into a fire protection sealing has been in vain. Control units coordinate both fire detection and interaction with other control units, such as higher-level building control systems or clearing of the closing area of conveyor system closures.

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Fire protection for conveyor belts

Fire protection for conveyor belts

Fire protection as a question of existence

Fire protection as a question of existence

Fire protection for conveyor belts

Automatic conveyor systems are the lifeline for many companies. They guarantee continuous flows of material and goods by transporting these items to all areas in the company, through openings in fire walls and ceilings. This is where so-called conveyor system closures are used.

Conveyor systems transport various materials to all areas in the company, through openings in fire walls and ceilings. This is where so-called conveyor system closures (CSC) are used. In the event of a fire, these openings must close automatically and reliably to prevent uncontrolled spread of the fire to adjacent parts of the building.

Segmentation inside buildings

Statutory requirements

Official building regulations and insurances demand that buildings are split into segments, i.e. into areas separated by fire protection equipment. Openings between these separate areas are always prohibited, unless they are necessary in order to use the building.

A fire protection closure as part of a rail-bound conveyor system must satisfy many requirements!

Parts of a conveyor system closure

Be it a valve construction form, damper construction, swing doors or sectional gate: Today, there is a suitable shielding solution for almost all installation situations and conveyor equipment variants. Each of these CSC must ensure an uninterrupted conveyor process or may not hinder this. Manufacturers of conveyor systems assume that the conveyor system and the CSC work in harmony and ensure a reliable closing process.

  1. Conveyor system closures for 22 different conveyor equipment types (interrupted or continuous), e.g. roller conveyor, belt conveyor, suspension chain conveyor, circular conveyor etc.
  2. Closure tested according to the special standard DIN EN 1366-7 with the much stricter requirements compared to the test norm for gates DIN EN 1634-1 (e.g. high furnace pressure levels, to allow installation in higher positions and the necessary shielding by conveyor equipment etc.).
  3. tested for various wall types, solid construction types through to lightweight partition walls.
  4. Control system approved by the building inspectorate (brake systems) that have been specially tested and approved for conveyor system closures (e.g. signal exchange with the conveyor technology).
  5. Closing areas are cleared when triggered by monitoring the closing areas or clearing systems.
  6. Ensuring a smooth conveyor process because it is not impacted on by the conveyor system closure.
  7. Secure shields for continuous conveyor equipment, even in complicated constructions.
  8. Versatile closing directions due to space constraints.
  9. Also designed for high function cycles up to 200,000 – and even higher, if required.
  10. Decentral auxiliary power units for clearing the closing area, also in the event of a power failure.

Versatile conveyor technologies require many shielding variants

Construction forms

Be it a valve construction form, damper construction, swing doors or sectional gate: Today, there is a suitable shielding solution for almost all installation situations and conveyor equipment variants. Each of these CSC must ensure an uninterrupted conveyor process or may not hinder this. Manufacturers of conveyor systems assume that the conveyor system and the CSC work in harmony and ensure a reliable closing process.

The diversity of conveyor system designs today and limiting factors, e.g. space constraints at the installation site and load-bearing capacity of walls and ceilings, are challenging in terms of fire protection concepts. The continuous new developments and improvements of ever more powerful conveyor system closures means that there is a matching shielding possibility for almost all conveyor equipment. If a standard solution is not possible, various customised solutions are possible. Tailor-made to the needs of the intralogistics, modern CSCs guarantee a perfect interaction of conveyed materials, the transport system and the fire protection closure. Intelligent control systems coordinate the clearing of the shield areas, closing of the opening and, if necessary, the auxiliary power supply of the conveyor system in the case of fire.

  • Brandschutz für Förderanlagen
  • Fire protection for conveyor belts
  • Fire protection for conveyor belts
  • Fire protection for conveyor belts
  • Fire protection in buildings with rail-bound intralogistics
  • Fire protection in buildings with rail-bound intralogistics
  • Fire protection for conveyor belts
  • Brandschutz für Förderanlagen
  • Fire protection for conveyor belts
  • Fire protection for conveyor belts
  • Fire protection for conveyor belts
  • Fire protection in buildings with rail-bound intralogistics
  • Fire protection in buildings with rail-bound intralogistics
  • Fire protection for conveyor belts

The issue of the proof of usability based on approved fire tests

Testing and approval of conveyor system closures

The suitability of the use of these kinds of closures must be verified in Germany by means of an approval from the building inspectorate DIBt (in exceptional cases, approval of specific cases, ZiE) or at the European level by means of a European Technical Assessment (ETA).