CN108550423A - A kind of anti-interference buggy ladle cable of high strength flexible and preparation method thereof - Google Patents

Abstract

The invention discloses a kind of anti-interference buggy ladle cables of high strength flexible：Cable conductor is made of power wire core, signal core, steel wire strengthening core twisted synthesizing cable, and the steel wire strengthening core is on the central axes of the cable core；The power wire core, signal core are with annular array in the periphery of the steel wire strengthening core, and on the circumferencial direction of cable, the power wire core is spaced apart with signal core；It is disposed with the total shielded layer of general belt layer, tinned copper wire, inner restrictive coating, enhancement layer in the outer layer of cable core, the outermost layer of cable is extruded with outer jacket；The cable has softness, tension, wear-resisting, fire-retardant, high temperature resistant, the performances such as anti-interference, is a kind of while collecting power transmission and signal is controlled in the anti-interference buggy ladle cable of integrated high strength flexible.

Description

A kind of anti-interference buggy ladle cable of high strength flexible and preparation method thereof

Technical field：

The present invention relates to a kind of buggy ladle cable and preparation method thereof, specifically a kind of anti-interference steel of high strength flexible Hired car cable and preparation method thereof.

Background technology：

Buggy ladle is metallurgy, building material industry essential a kind of special installation in process of production, it is a kind of electronic Flatcar, power are provided by motor, remote control operation, are orbited steady, the speed of service can be controlled freely, motor cable Retractable is carried out by reel, while also undertaking electrical equipment control.Environment residing for it is very severe, not only needs frequent high-speed mobile, It also needs to bear certain pulling force and bending and ground friction, due to field condition, traditional cable just will appear line in a short time Core fracture, sheath cracking and other issues.

Invention content：

To overcome the deficiencies of existing technologies, the purpose of the present invention is to provide a kind of anti-interference buggy ladle electricity of high strength flexible Cable, the cable have the performances such as softness, tension, wear-resisting, fire-retardant, high temperature resistant, anti-interference, are a kind of while collecting power transmission and letter Number it is controlled in the anti-interference buggy ladle cable of integrated high strength flexible.

The present invention solves technical problem and adopts the following technical scheme that：

A kind of anti-interference buggy ladle cable of high strength flexible：

Cable conductor is made of power wire core, signal core, steel wire strengthening core twisted synthesizing cable, and the steel wire strengthening core is in On the central axes of the cable core；The power wire core, signal core with annular array in the periphery of the steel wire strengthening core, And on the circumferencial direction of cable, the power wire core is spaced apart with signal core；

It is disposed with the total shielded layer of general belt layer, tinned copper wire, inner restrictive coating, enhancement layer in the outer layer of cable core, electricity The outermost layer of cable is extruded with outer jacket；

Total shielded layer is tinned copper wire woven shield, and count is 80% or more.

The power wire core is made of power conductor, the power wire core insulating layer extruded in the power conductor outer layer, institute It states power conductor to be made of tinned copper wire and aramid fiber yarn bundle strand, the aramid fiber yarn is on the center line of the power conductor, beam The twisting pitch of strand is 10~12 times of power conductor diameter.

The signal core from-inner-to-outer successively by signal conductor, to extrude signal core in the signal conductor outer layer exhausted Edge layer, around the signal core belting layer being wrapped in outside signal wire core insulation layer, the signal being knitted to outside signal core belting layer Conductor screen, the signal core separation layer extruded outside signal conductor screen are constituted, and the signal cable core conductor is by plating Tin copper wire is constituted with aramid fiber yarn bundle strand, and the aramid fiber yarn is on the center line of the signal conductor, and the twisting pitch of bundle strand is 10~12 times of signal conductor outer diameter.

The signal core belting layer is constituted by the overlapping of insulating polyester band is wrapped, and wrapped cap rate control is 15%~20% Between.

The signal conductor screen is made of φ 0.12mm tin plating soft copper silk braidings, count control 80% with On.

The signal core separation layer is by soft insulating material of polyethylene (soft hardness 65A, general pliability reach 85A or more) Extrude composition, nominal thickness 0.3mm.

The preparation method of the anti-interference buggy ladle cable of high strength flexible comprising following steps：

Step 1, power wire core is prepared：

Tinned copper wire by wire drawing-annealing-it is tin plating-bundle strand constitutes power conductor, aramid fiber yarn 5 is centrally disposed and plates Tin copper wire bundle strand together, twisting pitch control 10~12 times in power conductor diameter；

Using soft polyvinyl chloride Insulation Material outside power guide body (soft hardness 65A, general pliability reach 85A or more) Power insulating layer of conductor is extruded, is completed on extruding machine using fashion of extrusion；

Step 2, signal core is prepared, method is the same as step 1；

Step 3, wrapped composition signal core belting layer, cap rate control are overlapped using insulating polyester band outside signal core System is between 15%~20%；

Signal conductor screen is knitted to form using the tin plating soft copper silks of φ 0.12mm outside signal core belting layer, is woven Density domination is 80% or more；

Then it is extruded using polyethylene true qualities insulating materials outside signal conductor screen and constitutes signal core separation layer, Insulating layer nominal thickness is 0.3mm；

Step 4, by steel wire strengthening core, power wire core and the signal of insulation the core twisted synthesizing cable on cable-former, steel wire adds The centrally disposed layer of strong core, laying up pitch are no more than 12 times of laying up diameter；

General belt layer is completed on cable-former simultaneously；Total shielded layer selects 24 ingots or 32 ingots high speed to compile according to the size of cable core Loom, by adjusting the gear of braider, control count is 80% or more；Sheath is protected using soft flame-proof polyvinyl chloride Jacking (soft hardness 65A, general pliability reach 85A or more), is completed using plsitive mold on extruding machine；Enhancement layer 13 is adopted It is completed on braider with multiply nylon yarn, count is controlled 10% or more so that braiding layer is close to wrap in comb web frame It pricks on sheath；Protective coverings of cable material and extrusion way are identical as sheath.

Compared with the prior art, beneficial effects of the present invention are embodied in：

(1) it is provided with aramid fiber yarn in cable conductor, improves the tension and softness of cable conductor, aramid fiber yarn is a kind of new Type high-tech synthetic fibers, tensile strength are 6 times of steel wire or more, and toughness is 2 times of steel wire, while there is high temperature not melt Change, do not decompose, the characteristics such as softness, acid and alkali-resistance, waterproof.

(2) insulation of cable, sheath are squeezed out using 105 DEG C of flame-retardant flexible pvc material squash types, the material heatproof 105 DEG C are can reach, it is more soft than common plastics (pliability 65A, general pliability reach 85A or more), it is easy to remove, have simultaneously There is fire-retardant, wear-resisting property, makes cable conductor insulating layer even closer using squash type extrusion way, be unlikely to deform.

(3) cable signal core is provided with tinned copper wire braid shielded, and separation layer, shielding and shielding are provided with outside shielding Between there is preferable insulation performance, it is ensured that the accurate delivery of signal has acid and alkali-resistance, anti-interference.

(4) nylon yarn braiding enhancement layer is provided between inner sheath of cable and outer jacket, oversheath is directly extruded in nylon In silk braiding layer, sheath material is sufficient filling with into nylon mesh grid in extrusion so that nylon braiding layer is embedded into In oversheath, the tensile property of cable cover(ing) is significantly increased.

There is softness, tension, waterproof, acid and alkali-resistance, wear-resisting, fire-retardant, high temperature resistant, resist and do in short, product of the present invention is one kind It the performances such as disturbs, while collecting power transmission and being controlled in the anti-interference buggy ladle cable of integrated high strength flexible with signal.

Description of the drawings：

Fig. 1 is the structural schematic diagram of cable of the present invention.

Figure label：1 power conductor, the insulation of 2 power wire cores, 3 signal conductors, 4 signal wire core insulations, 5 aramid fiber yarns, 6 letters Number core belting layer, 7 signal conductor screens, 8 signal core separation layers, 9 steel wire strengthening cores, 10 general belt layers, 11 total shieldings Layer, 12 sheaths, 13 enhancement layers, 14 outer jackets.

Below by way of specific implementation mode, and in conjunction with attached drawing, the invention will be further described.

Specific implementation mode：

Embodiment：

The preparation method of the anti-interference buggy ladle cable of high strength flexible of the present invention comprising following steps：

Step 1, power wire core is prepared：

Tinned copper wire by wire drawing-annealing-it is tin plating-bundle strand constitutes power conductor, aramid fiber yarn 5 is centrally disposed and plates Tin copper wire bundle strand together, twisting pitch control 10~12 times in power conductor diameter；

Power insulating layer of conductor is extruded using polyvinyl chloride insulation material outside power guide body, using fashion of extrusion in extrusion molding It is completed on machine；

Step 2, signal core is prepared, method is the same as step 1；

Step 3, wrapped composition signal core belting layer, cap rate control are overlapped using insulating polyester band outside signal core System is between 15%~20%；

Signal conductor screen is knitted to form using the tin plating soft copper silks of φ 0.12mm outside signal core belting layer, is woven Density domination is 80% or more；

Then it is extruded using polyethylene true qualities insulating materials outside signal conductor screen and constitutes signal core separation layer, Insulating layer nominal thickness is 0.3mm；

Step 4, by steel wire strengthening core, power wire core and the signal of insulation the core twisted synthesizing cable on cable-former, steel wire adds The centrally disposed layer of strong core, laying up pitch are no more than 12 times of laying up diameter；

General belt layer is completed on cable-former simultaneously；Total shielded layer selects 24 ingots or 32 ingots high according to the diameter of cable core Fast braider, by adjusting the gear of braider, control count is 80% or more；Sheath is using soft fire-retardant polychlorostyrene second Alkene protective cover material is completed using plsitive mold on extruding machine；Enhancement layer 13 is completed using multiply nylon yarn on braider, is compiled Density domination is knitted 10% or more so that braiding layer is in comb web frame, and close wrapping is on sheath；Protective coverings of cable material and Extrusion way and sheath material identical.

Shown in Fig. 1, the cross-section structure of cable is：Cable conductor is twisted by power wire core, signal core, steel wire strengthening core 9 Stranding is constituted, and steel wire strengthening core 9 is on the central axes of the cable core；The power wire core, signal core are arranged with annular array It is distributed in the periphery of the steel wire strengthening core 9, and on the circumferencial direction of cable, the power wire core and signal core interval point Cloth；

It is disposed with the total shielded layer 11 of general belt layer 10, tinned copper wire, inner restrictive coating 12, reinforcement in the outer layer of cable core 13 (multiply nylon yarn is completed on braider) of layer, the outermost layer of cable are extruded with outer jacket 14；

Total shielded layer 11 is tinned copper wire woven shield, and count is 80% or more.

The power wire core is made of power conductor 1, the power wire core insulating layer 2 extruded in 1 outer layer of power conductor, The power conductor 1 is made of tinned copper wire and 5 bundle strand of aramid fiber yarn, and the aramid fiber yarn 5 is in the center line of the power conductor 1 On, the twisting pitch of bundle strand is 10~12 times of power conductor diameter.

The signal core from-inner-to-outer successively by signal conductor 3, extrude in the signal core of 3 outer layer of the signal conductor Insulating layer 3, around the signal core belting layer 6 being wrapped in outside signal wire core insulation layer 3, be knitted to outside signal core belting layer 6 Signal conductor screen 7, extrude signal core separation layer 8 outside signal conductor screen 7 and constitute, the signal core Conductor is made of tinned copper wire and 5 bundle strand of aramid fiber yarn, and the aramid fiber yarn 5 is on the center line of the signal conductor 3, bundle strand Twisting pitch is 10~12 times of signal conductor outer diameter.

Claims (7)

1. a kind of anti-interference buggy ladle cable of high strength flexible, it is characterised in that：

Cable conductor is made of power wire core, signal core, steel wire strengthening core (9) twisted synthesizing cable, at the steel wire strengthening core (9) In on the central axes of the cable core；The power wire core, signal core are with annular array in the steel wire strengthening core (9) Periphery, and on the circumferencial direction of cable, the power wire core is spaced apart with signal core；

The outer layer of cable core be disposed with general belt layer (10), the total shielded layer of tinned copper wire (11), inner restrictive coating (12), plus Strong layer (13), the outermost layer of cable are extruded with outer jacket (14)；

Total shielded layer (11) is tinned copper wire woven shield, and count is 80% or more.

2. the anti-interference buggy ladle cable of high strength flexible according to claim 1, it is characterised in that：The power wire core by Power conductor (1), extrude in power conductor (1) outer layer power wire core insulating layer (2) composition, the power conductor (1) It is made of tinned copper wire and aramid fiber yarn (5) bundle strand, the aramid fiber yarn (5) is on the center line of the power conductor (1), bundle strand Twisting pitch be 10~12 times of power conductor diameter.

3. the anti-interference buggy ladle cable of high strength flexible according to claim 1, it is characterised in that：The signal core is certainly It is interior and it is outer successively by signal conductor (3), extrude the signal wire core insulation layer (4) in the signal conductor (3) outer layer, around being wrapped in letter The external signal core belting layer (6) of number core insulating layer (4) is knitted to the external signal core of signal core belting layer (6) Shielded layer (7) is extruded in external signal core separation layer (8) composition of signal conductor screen (7), the signal cable core conductor It is made of tinned copper wire and aramid fiber yarn (5) bundle strand, the aramid fiber yarn (5) is on the center line of the signal conductor (3), bundle strand Twisting pitch be 10~12 times of signal conductor outer diameter.

4. the anti-interference buggy ladle cable of high strength flexible according to claim 3, it is characterised in that：The signal core packet Belt (6) is constituted by the overlapping of insulating polyester band is wrapped, and wrapped cap rate control is between 15%~20%.

5. the anti-interference buggy ladle cable of high strength flexible according to claim 3, it is characterised in that：The signal core screen It covers layer (7) to be made of the tin plating soft copper silk braidings of φ 0.12mm, count is controlled 80% or more.

6. the anti-interference buggy ladle cable of high strength flexible according to claim 3, it is characterised in that：The signal core every Absciss layer (8) is extruded by insulating material of polyethylene to be constituted, nominal thickness 0.3mm.

7. the preparation method of the anti-interference buggy ladle cable of high strength flexible described in a kind of claim 1, it is characterised in that including with Lower step：

Step 1, power wire core is prepared：

Tinned copper wire by wire drawing-annealing-it is tin plating-bundle strand constitute power conductor, aramid fiber yarn 5 is centrally disposed and tin-coated copper Silk bundle strand together, twisting pitch control 10~12 times in power conductor diameter；

Power insulating layer of conductor is extruded using polyvinyl chloride insulation material outside power guide body, using fashion of extrusion on extruding machine It completes；

Step 2, signal core is prepared, method is the same as step 1；

Step 3, wrapped composition signal core belting layer is overlapped using insulating polyester band outside signal core, cap rate control exists Between 15%~20%；

Signal conductor screen, count are knitted to form using the tin plating soft copper silks of φ 0.12mm outside signal core belting layer Control is 80% or more；

Then it is extruded using polyethylene true qualities insulating materials outside signal conductor screen and constitutes signal core separation layer, insulation Layer nominal thickness is 0.3mm；

Step 4, by steel wire strengthening core, power wire core and the signal of insulation the core twisted synthesizing cable on cable-former, steel wire strengthening core Centrally disposed layer, laying up pitch are no more than 12 times of laying up diameter；

General belt layer is completed on cable-former simultaneously；Total shielded layer selects 24 ingots or 32 ingots high speed to weave according to the size of cable core Machine, by adjusting the gear of braider, control count is 80% or more；Sheath is adopted using flame-proof polyvinyl chloride protective cover material It is completed on extruding machine with plsitive mold；Enhancement layer 13 is completed using multiply nylon yarn on braider, count control 10% or more so that braiding layer is in comb web frame, and close wrapping is on sheath；Protective coverings of cable material and extrusion way with Sheath is identical.