CN219738609U - Steel-clad vehicle cable - Google Patents

Abstract

The utility model relates to a buggy ladle cable, which comprises an aramid fiber reinforced conductor arranged at the central position, wherein an inner isolation layer, an insulation layer, an outer isolation layer, a sheath layer and a tinned steel wire braiding layer are sequentially arranged outside the conductor, and the tinned steel wire braiding layer comprises an outer tinned steel wire braiding layer and an inner tinned steel wire braiding layer; the outer tinned wire braiding layer is connected with the inner tinned wire braiding layer through a tinned wire braiding net which is obliquely arranged; the outer tinned wire braiding layers and the inner tinned wire braiding layers form mutually independent annular cavities through obliquely arranged tinned wire braiding nets. The buggy ladle cable disclosed by the utility model has the advantages of simple structure, reliable protection, effective protection of the cable, prolonged service life of the cable, reduced maintenance cost and improved working efficiency.

Description

Steel-clad vehicle cable

Technical Field

The utility model relates to a cable, in particular to a buggy ladle cable.

Background

The safety of the steel ladle car of the steel mill cannot be ignored in the steelmaking production process, and the equipment used as the equipment for transporting the high-temperature liquid cannot generate any equipment accident in the steelmaking process, otherwise, the safety and the stable operation of steelmaking are influenced.

The steel mill breaks through the whole force to lead the steel production, various production indexes, economic benefits and the like to be provided with a new step, the steel ladle car problem is also slowly exposed to the new production target, the weight of the fully loaded steel ladle car can reach 300 tons due to the large steel ladle car capacity, and the high Wen Gongzha is often splashed onto the cable in the normal use process, thereby causing frequent cable damage. If the cable fails, the steel slag cannot be transported in time, the normal production of the next working procedure is affected, and the casting interruption or furnace return accident is caused by serious faults. Each time the buggy ladle cable burns out, 3-4 people are required to replace the cable, so that a large amount of manpower and material resources are occupied, and the production of the next process is seriously influenced.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides the buggy ladle cable which has a simple structure, prolongs the service life of the buggy ladle cable and reduces the maintenance cost.

The technical scheme adopted by the utility model is as follows:

a buggy ladle cable comprises an aramid fiber reinforced conductor arranged at the central position, wherein an inner isolation layer, an insulation layer, an outer isolation layer, a sheath layer and a tinned steel wire weaving layer are sequentially arranged outside the aramid fiber reinforced conductor,

the tinned wire braiding layers comprise an outer tinned wire braiding layer and an inner tinned wire braiding layer;

the outer tinned wire braiding layer is connected with the inner tinned wire braiding layer through a tinned wire braiding net which is obliquely arranged;

the outer tinned wire braiding layers and the inner tinned wire braiding layers form mutually independent annular cavities through obliquely arranged tinned wire braiding nets.

The adjacent inclined tin-plated steel wire woven meshes are parallel to each other, and the interval is 2-10 mm.

The inclination angle of the inclined tinned wire woven mesh and the central line of the cable is 45-60 degrees.

The height of the obliquely arranged tinned steel wire woven net is 2-10 mm.

Compared with the prior art, the utility model has the beneficial effects that:

the buggy ladle cable disclosed by the utility model has the advantages of simple structure, reliable protection, effective protection of the cable, prolonged service life of the cable, reduced maintenance cost and improved working efficiency.

According to the buggy ladle cable disclosed by the utility model, the annular cavities which are mutually independent are arranged between the outer tinned wire weaving layer and the inner tinned wire weaving layer, so that the heat radiation of steel slag to the cable can be effectively isolated, and the service life of the cable is prolonged.

Drawings

FIG. 1 is a schematic structural view of a buggy ladle cable of the present utility model;

fig. 2 is a schematic diagram of a structure of a tinned wire braid of the buggy ladle cable of the present utility model.

The main component symbols in the drawings illustrate:

in the figure:

1. aramid fiber reinforced conductor 2 and inner isolation layer

3. Insulating layer 4, outer insulation layer

5. Sheath layer 6, inner side tinned wire braid

7. Inclined tinned wire mesh 8, outside tinned wire braid.

Detailed Description

The utility model is described in detail below with reference to the attached drawings and examples:

as shown in fig. 1 and 2, the buggy ladle cable comprises an aramid fiber reinforced conductor 1 arranged at the central position, an inner isolation layer 2, an insulation layer 3, an outer isolation layer 4, a sheath layer 5 and a tinned steel wire braid are sequentially arranged outside the aramid fiber reinforced conductor 1,

the tinned wire braiding layers comprise an outer tinned wire braiding layer 8 and an inner tinned wire braiding layer 6;

the outer tinned wire braiding layer is connected with the inner tinned wire braiding layer through a tinned wire braiding net 7 which is obliquely arranged;

the outer tinned wire braiding layers and the inner tinned wire braiding layers form mutually independent annular cavities through obliquely arranged tinned wire braiding nets.

The adjacent inclined tin-plated steel wire woven meshes are parallel to each other, and the interval is 2-10 mm.

The inclination angle of the inclined tinned wire woven mesh and the central line of the cable is 45-60 degrees.

The height of the obliquely arranged tinned steel wire woven net is 2-10 mm.

Compared with the prior art, the utility model has the beneficial effects that:

the buggy ladle cable disclosed by the utility model has the advantages of simple structure, reliable protection, effective protection of the cable, prolonged service life of the cable, reduced maintenance cost and improved working efficiency.

According to the buggy ladle cable disclosed by the utility model, the annular cavities which are mutually independent are arranged between the outer tinned wire weaving layer and the inner tinned wire weaving layer, so that the heat radiation of steel slag to the cable can be effectively isolated, and the service life of the cable is prolonged.

According to the cable conductor 1 of the buggy ladle disclosed by the utility model, the aramid fiber is additionally arranged in the cable conductor 1, the elongation at break of the aramid fiber is much smaller than that of the copper wire, when the cable is bent, the aramid fiber is stressed, the copper wire is not stressed, the copper wire is stressed only after the aramid fiber is broken, the strength of the aramid fiber is very high and is 5-6 times that of the steel wire, and the cable is extremely difficult to break. Therefore, the conductor structure of the aramid fiber is additionally arranged, so that the situation that the conductor is broken, thinned and the like in the use process can be avoided; the insulation 3 layer of the cable is insulated by IE4 type ethylene propylene, and has excellent ageing resistance, ozone resistance, sunlight resistance, heat resistance, water vapor resistance, ultraviolet resistance, radiation resistance, ageing resistance, excellent chemical resistance, acid resistance, alkali resistance, washing agent, animal and vegetable oil, alcohol, ketone and the like; excellent hot water resistance and steam resistance; oil resistance, excellent insulating properties, etc.; the sheath 5 of the cable adopts SE4 type chlorinated polyethylene rubber, has excellent weather resistance, ozone resistance, chemical resistance and ageing resistance, and has good oil resistance, flame retardance and coloring performance; the SE4 type sheath is additionally provided with the low-carbon tinned wire braiding structure 6, the galvanized steel wire has smooth and clean surface, no crack, section, thorn, wound and rust, the galvanized layer is uniform, strong in adhesive force, durable in corrosion resistance, excellent in toughness and elasticity, the tensile strength is between 900Mpa and 2200Mpa (the wire diameter phi 0.2 mm-phi 4.4 mm), the torsion times (phi 0.5 mm) are more than 20 times, the repeated bending is more than 13 times, and the steel slag and the sheath can be effectively isolated, so that the cable is prevented from being directly scalded.

The above description is only of the preferred embodiment of the present utility model, and is not intended to limit the structure of the present utility model in any way. Any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present utility model fall within the technical scope of the present utility model.

Claims (4)

1. The utility model provides a ladle car cable, includes the aramid fiber reinforced conductor who sets up in central point put, and aramid fiber reinforced conductor outside has set gradually interior isolation layer, insulating layer, outer isolation layer, restrictive coating, tinned wire weaving layer, its characterized in that:

the tinned wire braiding layers comprise an outer tinned wire braiding layer and an inner tinned wire braiding layer;

the outer tinned wire braiding layer is connected with the inner tinned wire braiding layer through a tinned wire braiding net which is obliquely arranged;

the outer tinned wire braiding layers and the inner tinned wire braiding layers form mutually independent annular cavities through obliquely arranged tinned wire braiding nets.

2. The buggy ladle cable of claim 1, wherein:

the adjacent inclined tin-plated steel wire woven meshes are parallel to each other, and the interval is 2-10 mm.

3. The buggy ladle cable of claim 1, wherein:

the inclination angle of the inclined tinned wire woven mesh and the central line of the cable is 45-60 degrees.

4. The buggy ladle cable of claim 1, wherein:

the height of the obliquely arranged tinned steel wire woven net is 2-10 mm.