RU2002133448A - WATERPROOF CABLE FOR HIGH-SPEED COMMUNICATION AND METHOD FOR ITS MANUFACTURE - Google Patents

Claims (26)

1. A cable with four twisting, comprising a sheath of at least one four of insulated conductors, through which a signal is transmitted, enclosed in this sheath, ensuring their tight connection, said sheath and said insulated conductors through which transmit a signal are in contact with each other and arranged in the form of a spiral in such a way that they limit themselves to a hollow core, and an elongated vapor-proof material providing a tight connection of insulated conductors through which the signal is transmitted, said vapor-tight material essentially filling said hollow core along the entire length of said insulated conductors, along which the signal is transmitted, and said sheath and vapor-tight material form a tight seal around the insulated conductors, which transmit the signal, preventing the flow of vapors along the specified insulated conductors, which transmit signal. 2. The cable with four twisting according to claim 1, in which the specified sheath contains a gas-tight outer sheath. 3. The cable with four twisting according to claim 1, in which the specified sheath contains an inner and outer sheath, and the dielectric constant of the specified inner sheath exceeds the dielectric constant of the insulating material on these insulated conductors through which the signal is transmitted. 4. The cable with four twisting according to claim 1, in which the specified sheath forms a layer obtained by extrusion under pressure, essentially filling in the voids between these insulated conductors, through which the signal is transmitted, and this layer provides a sealed connection of these insulated conductors which transmit the signal among themselves along their entire length. 5. The four-twisted cable according to claim 1, wherein said sheath forms an inner sheath of polyvinyl chloride (PVC) obtained by extrusion under pressure, which essentially fills in the voids between these insulated conductors through which the signal is transmitted. 6. The cable with four twisting according to claim 1, in which the specified sheath contains an outer layer of nylon, which is essentially impermeable to gases. 7. The cable with four twisting according to claim 1, in which an elongated core is formed from said vapor impermeable material, wherein said core is compressed by means of said insulated conductors, through which the signal is transmitted, until it essentially fills voids of the specified hollow core located between the specified insulated conductors, through which the signal is transmitted. 8. The cable with four twisting according to claim 1, in which the cotton core is formed from the specified vapor-tight material, while compressing the specified core by means of these insulated conductors, through which the signal is transmitted, until it is essentially not it will fill the voids of the specified hollow core located between the indicated insulated conductors, through which the signal is transmitted. 9. The cable with four twisting according to claim 1, in which the core of the aramid filament is formed from the specified vapor-tight material, while compressing the specified core through the specified insulated conductors, through which the signal is transmitted, until it is essentially it will not fill in the voids of the specified hollow core located between the indicated insulated conductors through which the signal is transmitted. 10. The cable with four twisting according to claim 1, in which the specified sheath, vapor-proof material and insulated conductors that transmit the signal interact in such a way as to allow high-speed signal transmission on an Ethernet network in accordance with the IEEE 802.3 standard of the Institute of Engineers Electrical Engineering and Radio Electronics USA (IED). 11. The cable with four twisting according to claim 1, in which the specified sheath, vapor-proof material and insulated conductors through which the signal is transmitted, interact in such a way as to allow high-speed transmission of signals in an Ethernet network in accordance with the 10Base-T standard. 12. The cable with four twisting according to claim 1, in which the specified sheath, vapor-proof material and insulated conductors through which the signal is transmitted, interact in such a way as to allow high-speed transmission of signals in an Ethernet network in accordance with the 100Base-T standard. 13. A method of manufacturing a cable with four twisting, including the following operations: they arrange the four insulated conductors that transmit the signal in the form of a spiral and so that they are in contact with each other, and the insulated conductors that transmit the signal are limited a hollow core, which is located between them, enter the vapor-tight filler between the insulated conductors, through which the signal is transmitted, thus ohm, so that it essentially fills a hollow core along the entire length of said insulated conductors, along which the signal is transmitted, and encloses insulated conductors along which the signal is transmitted, in a sealed sheath, and through these operations of introduction and conclusion into the shell form a vapor-tight a seal with insulated conductors, through which a signal is transmitted, preventing the flow of vapors along these insulated conductors, through which dissolved signaling. 14. The method according to item 13, further comprising the following operation: form a gas-tight outer shell around insulated conductors, through which the signal is transmitted. 15. The method according to item 13, in which the specified operation of enclosing in a shell further comprises the following operation: on top of the insulated conductors that transmit the signal, a composition forming the inner shell is applied by extrusion under pressure, the dielectric constant of said inner shell exceeds the dielectric constant of the insulating material on these insulated conductors, through which the signal is transmitted. 16. The method according to item 13, further comprising the following operation: around the insulated conductors by which the signal is transmitted, an inner layer is formed by extrusion under pressure so that it essentially fills in the voids between the insulated conductors through which signal transmission. 17. The method according to item 13, further comprising the following operation: around the insulated conductors by which the signal is transmitted, a composition of polyvinyl chloride (PVC) is applied by extrusion under pressure, forming an inner sheath, so that it essentially filled the voids between the insulated conductors through which the signal is transmitted. 18. The method according to item 13, further comprising the following operation: add an outer shell of nylon, which is essentially impermeable to gases. 19. The method according to item 13, in which when performing the specified operation, the introduction of the compression of the insulated conductors, which carry out the signal transmission, until the vapor-proof filler essentially fills the voids between the insulated conductors, which carry the signal . 20. The method according to item 13, in which the specified operation of the introduction includes the operation of pulling and compressing the core of the aramid filament between the insulated conductors, through which the signal is transmitted, so that it essentially fills the voids between the insulated conductors, which transmit the signal. 21. A vapor-tight cable for high-speed data transmission, comprising at least two conductors, through which the signal is transmitted, twisted in the form of a spiral structure, an expandable vapor-tight core filler, stretched between the two conductors, through which the signal is transmitted, compressing and deforming said core filler so that it hermetically fills at least the internal voids between said at least e, two conductors that carry the signal, and vapor-tight peripheral material deposited by extrusion under pressure in such a way that fills the peripheral voids located around the specified at least two conductors that carry the signal, and the specified extendable core filler and extruded peripheral filler form a sealed sheath for these conductors, which transmit the signal along their entire length, after COROLLARY which prevent vapor migration along the cable. 22. The cable according to item 21, further comprising a plurality of twisted pairs of conductors, through which a signal is transmitted restricting the hollow core located between the twisted pairs and the gaps within the pairs located inside each twisted pair, the specified extended core filler contains a first strand of aramid filament, which essentially fills the specified hollow core, and a second strand of aramid filament, which essentially fills the indicated gaps within the pairs. 23. The cable according to item 21, additionally containing the first and second extendable core fillers, forming a sealed sheath for said at least two conductors that transmit the signal, and said extruded peripheral material serves as a sealed sheath for said first and second stretchable core fillers. 24. The cable according to item 21, additionally containing four twisted pairs of conductors, through which the signal is transmitted in the form of a spiral bounding the hollow core, the gaps inside the pairs and the gaps between the pairs, and these extendable core filler and peripheral material are filled essentially all of the air gaps in the specified hollow core, the gaps inside the pairs and the gaps between the pairs. 25. The cable according to item 21, further comprising a four conductors, through which the signal is transmitted. 26. The cable according to item 21, further comprising an inner sheath made of the specified peripheral material, extruded under pressure, and an outer sheath, which is essentially gas-tight.