CN201084491Y - A buoyancy signal cable for marine operation - Google Patents

Abstract

The utility model relates to a buoyancy signal cable for marine operation, which is suitable for the signal transmission in the operation of submarine exploration, marine rescue, fishing, and science investigation, comprising a floating core, at least two cable conductors for signal transmission arranged outside of the floating core and an outer sheath; wherein, the floating core comprises a fibrous body and a first extrusion layer enwrapped outside of the fibrous body; the cable conductor comprises at least a pair of conductors and a second extrusion layer enwrapped outside of the conductors; a first wrapping layer, a fibrous layer, a second wrapping layer are arranged in sequence between the outer sheath and the conductor from inner to outer; materials for preventing water is arranged in the gap between the first extrusion layer and the first wrapping layer of the floating core. The utility model has the advantages of lowered density for the cable, enhanced mechanical strength for cable, ability to satisfy the operating requirements of repeatedly bending without break which is good for lowering the cable density and enhancing the mechanical strength, assured uniform force, and good for prolonging the service life for cable; thus the utility model can reliably protect the conductor from striking by seawater.

Description

The floatage signal cable that ocean operation is used

Technical field

The utility model relates to the floatage signal cable that a kind of ocean operation is used, and is applicable to the signal transmission in the operation such as sea floor exploration, ocean rescue, salvaging, scientific investigation.

Background technology

Ocean operation is an example with deep-sea oil probing, petroleum gas, combustible ice exploration, normally carries out in the waters of rice up to a hundred and even thousands of meters, and this operation also needs to use the cable of transferring electric power, signal except that necessary hardware facility such as equipment, instrument.Requirement for the cable that uses under this environment is often very harsh, previous people generally adopt steel wire armoured signal cable as the signal transport vehicle in the various ocean operations, the strong point of this cable is firm and can avoid cable to cause disconnected because of the gravity of self, but there is poor, the heavy drawback of flexibility simultaneously, in use, need supporter be set to cable, thereby cause trouble to ocean operation.So people have caused deeper concern to the cable of above-mentioned application scenario, this concern mainly concentrates on following four aspects: the one, possess good buoyancy; The 2nd, flexibility is good; The 3rd, mechanical strength ideal, the 4th, block-water performance is strong.

Chinese patent Granted publication CN2610459Y recommends to have a kind of floating cable, this technical scheme is at the centre that in the prior art core is arranged in cable cross-section, it is undesirable and propose that floating core is located at the radiating effect of existing core between core and the oversheath, concrete structure is by shown in Figure 1, comprise floating core 1 (patent claims buoyancy aid core group), core 2 (patent claims conductor wire core) and oversheath 3 (patent claims cable cover(ing)), its structure setting is: core 2 is evenly distributed between floating core 1 and the oversheath 3.Obviously, this patent scheme can satisfy the buoyancy of cable in seawater be enough to offset self gravitation be the global density of cable less than 1 technical problem, and help heat radiation to core.Yet the applicant thinks, the floating cable of recommending owing to above-mentioned patent exists that following shortcoming is not suitable for being used for that offshore drilling, sea-bottom natural gas may examine, the signal transport vehicle of the operation of ocean rescue, salvaging, scientific investigation and so on.One of its shortcoming is difficult to satisfy frequent bending that cable should possess and the flexibility requirement that is difficult for causing damage, because only depend on the outer one deck oversheath of core to be difficult to keep out turning from side to side of frequent bending; Two, though core is moved to the heat radiation that helps core between floating core and the oversheath, but it is objectively very unfavorable to the protection of core, in case oversheath causes damage, just can bring disaster to core, and because the own application scenario of cable or claim environment in seawater, so the temperature rise of cable is not a focal issue; Three, the water preventing ability effect is very fragile, in case seawater oozes and oversheath in, the function of core is just in paralyzed state so; Four since the floating cable of patent under user mode integrally or claim all to bubble through the water column, therefore as if need not for mechanical strength too overcritical, but when being applied to the applicant in the above during described occasion, then must very exquisite intensity.

Summary of the invention

Task of the present utility model be to provide a kind of have good flexibility and use satisfy that frequent crooked unlikely damage requires, safe and reliable to the protection of signal element, can prevent the floatage signal cable that seawater invasion and attack ocean operation core, that mechanical strength is desirable is used.

Task of the present utility model is finished like this, the floatage signal cable that a kind of ocean operation is used, it comprises floating core and is arranged at least two outer oversheaths that are used for the core of transmission signals and are used for core is protected of floating core, described floating core comprises that corpus fibrosum, first extrudes layer, and first extrudes the outside that layer integrally is wrapped in corpus fibrosum; Described core comprises that at least one pair of is stranded each other again and constitute the conductor of lay configuration and cladding second extrude layer outside conductor after separately by multiple insulating barrier; From inside to outside be provided with first lapping layer, fibrage, second lapping layer between described oversheath and the core successively; First of described floating core extrude the layer and described first lapping layer between all spatial domains in be filled with water-blocking material.

In a specific embodiment of the present utility model, also insert filler between the described core, core, filler closely are circle-shaped arrangement around the outside of described floating core.

In another specific embodiment of the present utility model, the material of described corpus fibrosum is an aramid fiber.

Go back in the specific embodiment of the present utility model, described first material that extrudes layer is a polyethylene.

In another specific embodiment of the present utility model, described conductor is that the synnema by the annealing bare copper wire of diameter 0.1-0.4mm or any one copper wire in the tinned copper wire constitutes.

In another specific embodiment of the present utility model, described conductor is that annealing bare copper wire or the tinned copper wire by single diameter 0.8-3mm constitutes.

More of the present utility model and in specific embodiment, the material that described insulating barrier and second extrudes layer and filler is a polyethylene.

In of the present utility model and then specific embodiment, described first lapping layer is polyester twining package tape or nonwoven fabrics, be wrapped in outside the core, described second lapping layer is polyester twining package tape or nonwoven fabrics, Bao Gu is outside fibrage, and the material of described oversheath is polyethylene or polypropylene or rubber.

Of the present utility model again more and in specific embodiment, described water-blocking material is a petroleum jelly.

In again of the present utility model and then specific embodiment, the used fiber of described fibrage is a high strength fibre, and thickness is 3-6mm, is positioned at outside first lapping layer, and described high strength fibre is an aramid fiber.

One of advantage of the technical scheme that the utility model is recommended, floating core has adopted corpus fibrosum, the density of cable is reduced, and can strengthen the mechanical strength of cable; Two, flexibility is desirable and can satisfy the instructions for use that frequently bending is not ruptured; Three, between first, second lapping layer, fibrage is set, both can help further to dwindle the density and the enhance mechanical strength of cable, and can ensure stressed evenly, the useful life that helps strengthening cable; Four; as core; by insulating barrier conductor self is protected earlier; and then by second extrude the layer insulating barrier is protected; more adding first lapping layer, fibrage, second lapping layer, oversheath outside core successively sets up defenses in depth; filled water-blocking material in floating simultaneously core and the space between first lapping layer, therefore can play the protection that blocks water reliably, can fully prevent the seawater invasion and attack core as cable core.

Description of drawings

Fig. 1 is the structure chart of the floating cable in the prior art that the utility model exemplified.

The first embodiment cross-sectional view of the floatage signal cable that Fig. 2 uses for the utility model ocean operation.

The second embodiment cross-sectional view of the floatage signal cable that Fig. 3 uses for the utility model ocean operation.

The 3rd embodiment cross-sectional view of the floatage signal cable that Fig. 4 uses for the utility model ocean operation.

Embodiment

For make your auditor especially the public can further understand architectural feature of the present utility model and beneficial effect thereof, the spy reaches embodiment in conjunction with the accompanying drawings embodiment of the present utility model is described in detail as follows:

Embodiment 1:

Please consult Fig. 2 in detail, from the section of this construction of cable is that cross section can be clear that, being positioned at Centromedian is that cross sectional shape is circular floating core 1, the diameter that should float core 1 is 11.5mm, by diameter is that the corpus fibrosum 11 of 9.5mm and thickness are that first of 1mm extrudes layer 12 and constitutes, material for corpus fibrosum 11, what preferably also definitely be not limited to is the aromatic polyamide fibers of selecting for use intensity good, more particularly select aramid fiber (claiming Kevlar again) for use, outside corpus fibrosum 11, extrude polyethylene promptly constitute first extrude the layer 12, first positive effect that extrudes layer 12 can make corpus fibrosum 11 roundingizations, and more positive meaning is the rounding property that can ensure follow-up stranding.Here extruding of being said is the technics by the process equipment of cable production industry, extrudes 12 a pairs of corpus fibrosum 11 of layer by first and protects.

As a kind of concrete execution mode, the applicant has provided 9 cores 2, but the quantity of core 2 is not restricted, for example can be few to two, as many as several so that more than ten.Seen that by figure 9 cores 2 closely constitute circle-shaped arrangement around the outside of floating core 1, core 2 contact of being said here each other that closely is meant forms tangent relation.

Because the structure of each core 2 in same signal cable is consistent, therefore the applicant select in illustrated 9 one of them be elaborated, two conductors 21 are gathered the copper wire synnema that forms by the annealing bare copper wire of 11 diameter 0.35mm and are constituted, and the material that is 0.4-0.5mm with the habitual equipment of wires and cables industry, the multiple thickness of process quilt respectively outside each conductor 21 is poly insulating barrier 211, behind the insulating barrier 211 that has been covered, pair of conductors 21 is stranded each other, and twisting pitch does not need to limit in the utility model.Then, outside the pair of conductors 21 after stranded, also promptly outside insulating barrier 211 same conventional equipment, the means (technology) that adopt wires and cables industry to extrude thickness be that to extrude the materials that layer 22, the second extrudes layer 22 be polyethylene to second of 0.7-0.8mm.The structure like this of core 2 should be safe, because also have second to extrude layer 22 protection except insulating barrier 211.

Solid outside 9 cores 2 with the polyester twining package tape as first lapping layer, 5 bags.Because having the hole between the core 2 is the space, thus the utility model adopt petroleum jelly as water-blocking material 4 insert (filling) to institute gapped in, to core 2 protection that blocks water.Outside first lapping layer 5 equably layout thickness be the material of 4.5mm be have an ideal tensile strength spin the synthetic fibre fiber as fibrage 6.Why requiring fibrage 6 to be evenly distributed, mainly is in order to make cable in use stressed evenly.Outside fibrage 6 with to the description of first lapping layer 5 and wrapped polyester twining package tape constitutes second lapping layer 7.The last thickness that extrudes outside second lapping layer 7 is that the material of 4.5-5mm is poly oversheath 3, obtains the floatage signal cable that ocean operation is used that is suitable for 9 cores 2 that are used for transmission signals shown in Figure 2.

Embodiment 2:

See also Fig. 3, in the present embodiment, the applicant has provided 8 cores 2 and 1 filler 8,8 cores 2 and to be the rounded filler 8 of the cross sectional shape that forms of PE Processing with material closely form circle-shaped arrangement around the outside of floating core 1 constitute tangent relation between the core 2 and between core 2 and the filler 8.Need to prove that when having the situation of filler 8, the quantitative relation between filler 8 and the core 2 has two kinds so, the one, both are equal, and the 2nd, both are inversely proportional to, and the former is as 5 cores 2 and 5 fillers 8; The latter such as core more than 2, then filler 8 is few, and vice versa.In the present embodiment, conductor 21 employings are gathered the copper wire synnema that (strand certainly) forms by the tinned copper wire of 19 diameter 0.25mm.The thickness of fibrage 6 is 4mm, and all the other are all with the description of embodiment 1.The product that obtains is disclosed by Fig. 3.

Embodiment 3:

Please consult Fig. 4 in detail, the diameter that only will float core 1 changes 14.0mm into, wherein, the diameter of corpus fibrosum 11 is 12.2mm, first thickness that extrudes layer 12 is 0.9mm, the quantity of core 2 changes 7 into, filler 8 is 2, it is the annealing bare copper wire of 1.0mm that the material of the conductor 21 of core 2 is used single (1) diameter instead, the insulated wire cores that each core 2 is made of four conductors, 21 outer extrusion molding insulating barriers 211 and insulated wire cores extruded second after stranded and extrude layer 22 and form, first lapping layer 5 adopts nonwoven fabrics, second lapping layer 7 also adopts nonwoven fabrics, and change the thickness of fibrage 6 into 5mm, oversheath 3 materials are polypropylene, thickness is 4.8-5.3mm, and all the other are all with the description to embodiment 1.

Embodiment 4:

Figure slightly, only the quantity with core 2 changes 12 into, and the diameter of floating core 1 changes 16mm into, wherein, the diameter of corpus fibrosum 11 is that to extrude layer 12 thickness be 1mm to 14mm, first, and suitably increase the outer warp of floating core 1, conductor 21 materials of core 2 are used the tinned copper wire that single diameter is 2.2mm instead, and the material of first, second lapping layer 5,7 all adopts nonwoven fabrics, the thickness of fibrage 6 is 5.5mm, the material of oversheath 3 is a rubber, and thickness is 5.5-6.0mm, and all the other are all with the description to embodiment 1.

By the foregoing description 1 to 4 resulting floatage signal cable after tested, flexibility: minimum bending radius is more than 6 times of the outside diameter of cable; Water preventing ability: satisfy the infiltration test of standard YD/T837.4-1996; Minimum is born breaking load: 3600 (kg); Density in seawater :≤1.10g/cm ³

Claims (10)

1. floatage signal cable that ocean operation is used, it comprises floating core (1) and is arranged at least two outer oversheaths (3) that are used for the core (2) of transmission signals and are used for core (2) is protected of floating core (1), it is characterized in that described floating core (1) comprises that corpus fibrosum (11), first extrudes layer (12), first extrudes the outside that layer (12) integrally is wrapped in corpus fibrosum (11); Described core (2) comprises that at least one pair of is stranded each other again and constitute the conductor (21) of lay configuration and cladding second extrude layer (22) outside conductor (21) after separately by multiple insulating barrier (211); From inside to outside be provided with first lapping layer (5), fibrage (6), second lapping layer (7) between described oversheath (3) and the core (2) successively; In extruding all spatial domains between layer (12) and described first lapping layer (5), first of described floating core (1) is filled with water-blocking material (4).

2. the floatage signal cable that ocean operation according to claim 1 is used is characterized in that also inserting between the described core (2) filler (8), and core (2), filler (8) closely are circle-shaped arrangement around the outside of described floating core (1).

3. the floatage signal cable that ocean operation according to claim 1 is used, the material that it is characterized in that described corpus fibrosum 11 is an aramid fiber.

4. the floatage signal cable that ocean operation according to claim 1 is used is characterized in that described first material that extrudes layer (12) is a polyethylene.

5. the floatage signal cable that ocean operation according to claim 1 is used is characterized in that described conductor (21) is to be made of the annealing bare copper wire of diameter 0.1-0.4mm or the synnema of any one copper wire in the tinned copper wire.

6. the floatage signal cable that ocean operation according to claim 1 is used is characterized in that described conductor (21) is that annealing bare copper wire or tinned copper wire by single diameter 0.8-2mm constitutes.

7. the floatage signal cable that ocean operation according to claim 1 is used is characterized in that the material that described insulating barrier (211) and second extrudes layer (22) and filler (8) is a polyethylene.

8. the floatage signal cable that ocean operation according to claim 1 is used, it is characterized in that described first lapping layer (5) is polyester twining package tape or nonwoven fabrics, be wrapped in outside the core (2), described second lapping layer (7) is polyester twining package tape or nonwoven fabrics, Bao Gu is outside fibrage (6), and the material of described oversheath (3) is polyethylene or polypropylene or rubber.

9. the floatage signal cable that ocean operation according to claim 1 is used is characterized in that described water-blocking material (4) is a petroleum jelly.

10. the floatage signal cable of using according to claim 1 or 8 described ocean operations, it is characterized in that the used fiber of described fibrage (6) is a high strength fibre, thickness is 3-6mm, is positioned at outside first lapping layer (5), and described high strength fibre is an aramid fiber.

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