BG4752U1 - IMPROVED ELECTRICAL CABLE - Google Patents

Description

The utility model relates to an improved electric cable that will find application in industry and in particular in the construction of electrical building installations in places whose safety in the event of fire must be guaranteed.

Prior art

In the construction of electrical installations, standard electrical cables, known from practice, are mainly used, which includes an insulated wire consisting of a conductive wire with an insulating coating of plastic (PVC) or rubber. Electric cables are also known, in which at least two insulated conductors are covered by a common sheath, which is also usually made of plastic or rubber. Electrical cables known from practice provide good electrical insulation, which is essential for the safety and proper functioning of electrical systems. Rubber cables are generally more flexible and impact resistant, while plastic cables are often lighter and can be manufactured more efficiently, which can be important in mass production. Despite the wide application of rubber and plastic cables, they are not suitable in the construction of electrical installations that have high fire protection requirements, since both materials are highly flammable, and when burned, they can even emit toxic substances.

Technical nature of the utility model

The task of the useful model is to create a cable for the construction of electrical installations, which is suitable for insertion in places where a high level of fire safety is required.

The task has been solved by means of an improved electrical cable which includes a common sheath covering at least one insulated conductor composed of a conductive core with an insulating coating. According to the utility model, the overall sheath is made of an extruded halogen-free compound and the insulating coating of the conductive core is made of cross-linked polyethylene. In addition, there is an insulating filler between each insulated conductor and the common sheath.

In a preferred embodiment of the improved electric cable according to the utility model, said insulating filling is polyethylene.

The improved electric cable, according to the utility model, is designed from non-combustible materials, in direct fire there is no combustion process, and the cable materials directly burn with significantly less smoke emission, which can help limit the spread of fire in the event of fire. The extruded halogen-free compound used has a low tendency to ignite and excellent fire safety properties, containing no chlorine, fluorine, bromine or other halogens, which reduces negative environmental impacts of using this material. Cross-linked polyethylene insulation has high heat resistance, good insulation characteristics and excellent mechanical and chemical properties.

Examples of implementation of the utility model

The improved electric cable, according to the utility model, includes a general sheath made of an extruded halogen-free compound, which covers at least one insulated conductor composed of a conductive core with an insulating coating of cross-linked polyethylene, between which there is an insulating filling, which in a preferred embodiment may be polyethylene .

The improved electric cable can be made in various sizes and variants, the number of conductive wires preferably ranging from 1 to 7, and the cross section range preferably from 1 mm ² to 16 mm ² . The conductive cores may preferably be of copper, and according to the utility model each conductive core has an insulating coating of cross-linked polyethylene to obtain said insulated conductor. One or more insulated conductors are bundled together and covered with a common sheath of extruded halogen-free compound. Between the insulated conductors and the common sheath there is an insulating filling, which is preferably polyethylene.

Cross-linked polyethylene insulation significantly improves the characteristics of the material because it is made by a specialized chemical and physical technology that changes the polyethylene molecules from a linear molecular structure to a three-dimensional network structure, turning it from a thermoplastic material to a thermoset material, in which the working temperature increases from 70 to 90°C. Cross-linked polyethylene has excellent heat resistance, not decomposing and carbonizing below 200°C, with a thermal life that can reach 40 years. This material retains the original good insulating characteristics of polyethylene, and the insulating resistance is further increased by having a small dielectric loss tangent, being unaffected by temperature. Thanks to the establishment of new chemical bonds between macromolecules, the stiffness, abrasion resistance and impact resistance of crosslinked polyethylene are improved, thus compensating for the disadvantage of polyethylene cracking due to environmental effects. The preferred polyethylene material from which the insulation filling can be made is known for its low flammability under normal conditions, making it suitable for various applications where non-flammability is required, which protects the insulated conductors from direct flame, protecting the entire installation in case of fires. In addition, polyethylene has good thermal insulation properties and has good durability and impact resistance, which further protects the insulated wires from bad external influences, protecting the entire installation.

The improved electric cable is made of an alternative material that extends the life of the product and reduces the content of hazardous substances, as it emits low emissions of toxic gases during combustion and slows the spread of fire, due to the specificity of the non-combustible materials used in its manufacture. The utility model can find excellent application in electrical installations of power plants and substations, subways, airports and public buildings such as: hospitals, hotels, theaters, cinemas, public and shopping centers and other places with a large concentration of human and material resources whose security in case of fire must be guaranteed. Due to the construction of the overall sheath and with the insulating coating of the conductive core of cross-linked polyethylene, and additionally due to the use of an extruded halogen-free compound for the additional insulating sheath, the improved electrical cable has the following distinguishing characteristics:

• can work with a wider range of voltages;

• has improved electrical insulation properties with improved insulation resistance;

• has improved mechanical protection;

• has improved thermal resistance, which allows it to be used even at significantly high temperatures;

• has improved moisture resistance;

• has improved weather resistance, therefore corrosion resistant.

Claims (1)

An improved electrical cable comprising a common sheath covering at least one insulated conductor composed of a conductive core with an insulating coating, characterized in that the common sheath is made of an extruded halogen-free compound and the insulating coating of the conductive core is made of cross-linked polyethylene, as between each insulated conductor and the common sheath there is an insulating filling