DE3544810A1 - PROTECTIVE COVER AGAINST OUTSIDE HEAT AND FIRE FOR STRING-SHAPED GOODS - Google Patents

Description

The present invention relates to a protective cover against Heat and fire exposure from the outside for strand-like goods, such as media-carrying pipes, hoses or tube bundle cables as well as electrical cables for pneumatic, hydraulic, electrical or optical transmission of Control pulses, measured values or the like.

Find media-carrying pipes, hoses or tube bundle cables in various fields of technology application. For example, High or ultra high pressure hoses, also as Hy called draulic cable, for hydraulic actuations and Drives required, they are just like the tube bundle cables but also energy and information carriers in pneuma table or hydraulic measurement, control or regulation technology. Such pressure transmission cables are used everywhere sentence where the electrical transmission disadvantageous or out Safety reasons (risk of explosion) is not allowed.

In the event of fire or similar heat effects on the required hoses, pipes or tube bundle cables especially in shipbuilding, but also in chemical  or petrochemical industry strives to apply pressure media-carrying hoses or pipes via one if possible long period of functionality, e.g. in automatic systems with remote transmission after detection of the damage fire via the pneumatic or hydraulic Lines still necessary for security reasons To be able to carry out measurement and control processes.

It is therefore already known for the transmission of measurement values, control pulses or the like, for example tube bundles use cables with heat-resistant metallic pipes or to pull the tube bundle cables into metal tubes and ver with appropriate thermal insulation see. Apart from the high cost of such executions conditions and also the high installation effort for laying are the known constructions from laying technology Reasons not always applicable.

For pipe constructions with media-carrying tubes thermoplastic materials it is also already known a flame-retardant mixture of art for the coat use fabric. However, this melts and melts higher temperatures and in the event of fire it can Expose the pipe or hose very quickly and so on immediately expose to external heat. A Functional maintenance is no longer given.

But also in electrical energy or data transmission technology is the development of electrical cables or Lei a priority issue with improved fire behavior gift. Materials for insulation and / or sheaths with flame retardant additives are now well known, as well like the arrangement of fire-retardant or heat-insulating layers in cable or line construction. The goal is always that to improve so-called functional maintenance, i.e. the time during which an emergency operation, for example to trigger switching operations, still  can be maintained to extend. Neither through work fabric selection due to changes in the cable or line However, construction has so far succeeded in making decisive improvements to achieve in fire behavior, apart from the problems men, e.g. Cable optimized for electrical purposes or line construction in necessary for mechanical tasks Way to repurpose.

The invention is therefore based on the object, one possible ability to find, also such designs of pipes, hose Chen, cables or lines made of high heat materials sensitivity or contain such materials, with increased temperature stress, e.g. in case of fire, too protect so that the function is maintained for a sufficient period of time given is. This problem occurs particularly clearly in all cases where, e.g. in the case of the so-called Hydraulic high pressure hoses, these hoses are pressurized strikes, e.g. from 100 bar and above.

This object is achieved according to the invention by a or multilayer, enclose the strand-like material immediately de bandage consisting of an inorganic material or such material predominantly contains one above arranged dense wrapping from threads or tapes from one temperature-resistant material as well as this wrapping surrounding, acting as a pressure sleeve from a heat and / or refractory material. The special advantages this layer structure can be seen in the fact that e.g. the media-carrying soul or the cable against direct The effects of temperature are protected so that the arranged above However, layers and layers have already been Distribution of the heat field over the circumference and the length of the Hose, pipe or cable, be it through heat radiation or heat conduction. This umbrella zone, in the on at materials that decompose at elevated temperatures is omitted, undergoes additional compression or Compression with a kind of pressure sleeve. This has to  Consequence that the inner layers in their concentric position around the pipe or ver the tube bundle cable and around the electrical cable stay and thus over the entire scope e.g. the one in the hose or counteract media pressure prevailing inside the pipe. The Service life of a casing constructed according to the invention protected hose, a corresponding pipe or tube bundle cable becomes so despite high operating pressures in the event of fire temperatures increased significantly. The same applies to the span leading wires of electrical cables, for example, the can survive a fire even if they are inside a protective cover according to the invention are arranged.

A particularly advantageous embodiment of the invention arises when the protective cover from one strand shaped material immediately surrounding bandage is built up, which consists of an inorganic material or such Material mainly contains, also from a bandage covering, heat reflecting (radiating) hull le, an applied heat-distributing cover made of a temperature-resistant material and at least a covering this cover act as a pressure sleeve the braid made of a heat and / or refractory material and a final outer protective jacket in heavy ent flammable or fireproof design. Such an execution saves e.g. in the case of hydraulic hoses at Tempera doors above 800 ° C and operating pressures of more than 180 bar the operability over a sufficiently long period of time.

In further development of the inventive idea, it has also proven to be Proven useful if the the hose, the pipe, the pipe bundle cable or the electrical cable or the line un indirectly enclosing inorganic layer (s) Mica exist, being used once to improve flexibility lity of the protective cover and on the other hand to increase the  Operational safety of the mica on a ribbon-shaped carrier is arranged. These tapes, also beneficial in the individual Layers of different widths are then the same or different direction of lay around the strand-shaped Well wrapped up. The mica coating is an advantage internally directed.

In a continuation of the invention, it is also expedient if the heat radiating shell made of a metal coating there is a glass fiber ribbon. Here e.g. two push on Butt-wrapped tapes are used, especially it to achieve a closed radiation shield on it arrives that the metal side of the band faces out, i.e. one possible heat source is opposed.

According to another inventive concept, there is heat tightly fold the distributing cover from one or more layers heat-resistant threads or fibers. These threads or Fa stars made of ceramic or such a material can hold and are coated with metal, form by the Metal application a heat conductive and distributing Layer, additionally through the insulating heat-resistant But also a kind of thermal insulation towards the core elongated good.

All previously mentioned and the media-leading soul around closing layers or layers are influenced a subsequent shift in the implementation of the Erfin consists of a fiberglass mesh. This shell out heat-resistant material acts as a Druckman cuff for the layers below, especially even in the event of a fire, when it is important that the protective cover ensure the function is maintained over a certain period of time should.

To produce a protective cover according to the invention one expediently so, for example, that the be in itself drivable pipe, the corresponding hose, the pipe  bundle cable or the electrical cable or the line tapes coated with mica initially a multi-layer Bandage made by wrapping with the mica inside and above it a metal-coated glass silk tape with the Coating is also applied to the outside by winding becomes. This layer of tape is then sealed with e.g. metal coating tied ceramic threads and quasi as a printing man rescue a glass fiber mesh and finally an outer one Protective coat applied. The outer coat in heavy ent Flammable or fireproof design can be made from any Materials exist. So high temperature resistant Materials based on fluoropolymers, possibly also in tape form, sintered or unsintered. Should out Manufacturing reasons extrudable materials application fin then you will also become such an elevated temperature give preference to permanence. Have been particularly suitable in this context, silicone rubbers have been found, e.g. for waterproof coverings.

The mica coated tapes can be advantageous by location have different widths to the location, they are used Moderate joint after joint with increasing width outwards wraps.

The invention is explained in more detail with reference to the flexible, flame-resistant hydraulic pressure hose shown in FIG. 1 and a test diagram for such a hose, illustrated in tests a and b.

The rubber high-pressure hose ( 1 ) of known design is surrounded by the layer ( 2 ) made of mica or a mica-containing material. Belts ( 3 ) coated with mica are expediently used, for example on a glass silk basis, the mica layer facing inwards. With ( 4 ) is a winding of one or more bands of glass silk, coated with aluminum, the metal layer serves as a heat shield and is therefore directed outwards. A subsequent, heat-distributing sheath ( 5 ) consists of threads or fibers ( 6 ) made of ceramic which are tightly wrapped around the winding ( 4 ).

The subsequent glass fiber mesh ( 7 ) tightly encloses the ceramic threads, it also acts on the layers ( 2 ) and ( 4 ) underneath. The outer sheath (B) consists, for example, of a flame-retardant, highly tear-resistant silicone rubber.

In spite of the protective cover having a multilayer structure according to the invention and the long standing times caused in the event of fire, the hydraulic hose is still sufficiently flexible, and the hose can also be installed in a space-saving manner. With an outer diameter of the inner pressure hose ( 1 ) of, for example, 25 mm and an 8 mm thick mica layer ( 2 ), the outer diameter of the hose protected according to the invention only grows to a total of 55 mm.

On a hydraulic hose protected according to the invention the following experiments have now been carried out:

Experiment a)

A hydraulic hose designed according to FIG. 1 was fastened over a pan filled with oil. In a same plane with the hose ( 7 ) five thermocouples ( 9 to 13 ) were attached at intervals of 10 cm, a Füh ler ( 13 ) was attached directly to the hose surface on the side facing the oil pan. Two further thermal sensors were in the hose (sensor ( 14 )) and between hose ( 1 ) and layer ( 2 ) (sensor ( 15 )), the hydraulic hose was in a depressurized state.

After igniting the oil, the maximum temperature of approx. 840 ° C was reached after about 3 minutes. The fire of the heat source, burning hydraulic oil of a defined amount, went out after 15 min. The temperature determined in the hose ( 1 ) by means of the sensor ( 14 ) during the fire was approximately 110 ° C., the temperature measured with the sensor ( 15 ) between the hose ( 1 ) and the layer ( 2 ) was approximately 125 ° C. The test result is illustrated in FIG. 2.

Experiment b)

In a departure from experiment a), three hydraulic hoses protected according to the invention and constructed in accordance with FIG. 1 were tested simultaneously, and these hoses were subjected to a static pressure of 190 bar during a test period of 28 min.

The test result is shown in FIG. 3. Curves Temp. 9 to 12 show the temperatures in the area surrounding the hoses, curves T 16 to 18 show the temperature curve of the pressure medium in the three hydraulic hoses used for the test.

These experiments show that the operability of the media leading hose below one according to the invention formed protective cover only slightly influenced by the Outside temperature is maintained. Despite the high temperature temperature (fire) at the same time prevailing high activity pressure the hose remains undamaged.

However, the invention is not restricted to this particularly critical case because of the simultaneous action of fire temperature and internal pressure. So each pipeline or each tube bundle cable in metallic or non-metallic design can be protected according to the invention. Likewise, instead of the hose ( 1 ) each elec trical or optical cable can be provided with a protective sleeve, which makes it possible to bring the cable safely over a fire without damaging it or maintaining its function.

It goes without saying that the function maintenance or In addition, the integrity of the cable can be checked by one of  the protective cover according to the invention independent own construction can be influenced, for example by the replacement usual insulation materials due to flame retardant or higher temperature resistant.

Claims (20)

1. Protective cover against the effects of heat and fire from the outside for strictly shaped goods, such as media-carrying pipes, hoses or tube bundle cables as well as electrical cables and lines for the pneumatic, hydraulic, electrical or optical transmission of control pulses, measured values or the like, characterized by a single or multilayer, the strand-like material immediately surrounding bandage, which consists of an anor ganic material or contains such a material predominantly, an overlying dense winding of threads or strips of a temperature-resistant material and a surrounding this wrapping, acting as a pressure sleeve a heat and / or refractory material. 2. Protective cover according to claim 1, characterized by the same early application of the strand-like good immediately enclosing bandage made of an inorganic material exists or predominantly contains such a material, one covering this bandage, reflecting the heat (from radiant) shell, one applied over it, the heat distributing cover made of a temperature-resistant material, at least one covering this envelope, as Druckman beautiful braid from a heat and / or fire solid material and an outer protective jacket in heavy flammable or fireproof design.   3. Protective cover according to claim 1 or 2, characterized in that mica serves as the inorganic material. 4. Protective cover according to claim 3, characterized in that the Mica is arranged on a ribbon-shaped carrier. 5. Protective cover according to claim 1 or one of the following, there characterized in that the bandage consists of a multiple winding of the mica-carrying tape. 6. Protective cover according to claim 5, characterized in that the Mica coating points inwards. 7. Protective cover according to claim 2, characterized in that the the heat radiating shell made of a metal-coated Glass silk ribbon exists. 8. Protective cover according to claim 7, characterized in that the Metal layer of the band faces outwards. 9. Protective cover according to claim 7 or 8, characterized in that the metal-coated tape is wound up. 10. Protective cover according to claim 7, characterized in that the heat-emitting layer made of evaporated metal stands. 11. Protective cover according to claim 2, characterized in that the the heat-distributing cover made of one or more layers tightly wrapped, heat-resistant threads or fibers. 12. Protective cover according to claim 11, characterized in that the threads or fibers are made of ceramic or a sol ches material and are metal coated. 13. Protective cover according to claim 1 or one of the following, because characterized in that the acting as a pressure cuff Cover consists of a glass silk mesh.   14. Protective cover according to claim 2 or one of the following, because characterized in that the extruded protective sheath a silicone rubber. 15. Protective cover according to claim 2 or one of the following, because characterized in that the protective jacket from a flame adverse temperature-resistant elastomer or thermoplastic consists. 16. Protective cover according to claim 2 or one of the following, because characterized in that the protective jacket is made of steel band allocation exists. 17. Protective cover according to claim 2 or one of the following, there characterized in that the protective jacket from a organic material. 18. A method for producing a protective cover according to claim 1 or one of the following, characterized in that um the operable pipe, the hose, the pipe collar delkabel or the electrical cable or the line tapes coated with mica initially a multi-layer Bandage made by wrapping with the mica inside and above it a metal-coated glass silk tape with the Coating is also applied to the outside by winding is that this tape layer is tight with metal-coated Ke ceramic threads and quasi as a pressure sleeve a glass silk mesh and finally an external protection coat is applied. 19. The method according to claim 18, characterized in that the mica coated tapes differ from layer to layer widths. 20. The method according to claim 19, characterized in that the Tapes butt after butt with increasing width be wrapped.