CN212426538U - Online injection-coated steel wire rope stranding machine - Google Patents

Abstract

The utility model relates to the technical field of a steel wire rope stranding machine, in particular to an online injection-coating steel wire rope stranding machine, which comprises a first gearbox, a first twisting body mechanism, a first distributing plate, a first preforming device, a first wire pressing tile seat, a second gearbox, a second twisting body mechanism, a second distributing plate, a second preforming device, a second wire pressing tile seat and a heating and flaming device, wherein an injection molding machine is arranged at the rear side of the first wire pressing tile seat, the injection molding machine is provided with a first nozzle and a second nozzle, the second nozzle is connected with an outer layer injection molding area, and an inner layer injection molding area is arranged on the first wire pressing tile seat. The service life of the steel wire rope can be prolonged.

Description

Online injection-coated steel wire rope stranding machine

Technical Field

The utility model relates to a wire rope closes rope machine technical field, more specifically has related to an online injection moulding wire rope closes rope machine.

Background

The steel wire rope is a steel product formed by twisting a plurality of steel wires, the steel wire rope twists the plurality of steel wires into strands through a rope combining machine during production, however, the steel wire rope produced by the traditional steel wire rope combining machine can be bent during use, at the moment, direct contact friction can be generated among the strands inside the steel wire rope, after the steel wire rope is fatigued, the phenomenon of wire breakage can occur, then the number of wire breakage of the steel wire rope is gradually increased, the time interval is shortened, the service life of the steel wire rope is shortened, in addition, when the steel wire rope is used, the outer layer of the steel wire rope can be in contact friction with a pulley and a rope groove of a winding drum, the abrasion of the surface of the steel wire rope of the outer layer strand of the steel wire rope can be caused, particularly, when hoisting acceleration and deceleration movement is carried out, the contact part of the steel wire rope and, thereby making wire rope life shorten.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing an online injection-coated steel wire rope closes rope machine, its online injection-coated not only makes steel wire rope have anti rotation nature and anti extrudability good, makes the steel wire rope ectonexine moreover, can not produce direct contact friction with between layer thigh and the thigh, effectively prevents the disconnected silk phenomenon of friction, can prolong steel wire rope's life.

In order to solve the technical problem, the technical scheme of the utility model is that:

an online injection-plastic-coated steel wire rope stranding machine comprises a first gearbox, a first stranding mechanism, a first branching disc, a first preforming device, a first wire pressing tile seat, a second gearbox, a second stranding mechanism, a second branching disc, a second preforming device, a second wire pressing tile seat and a heating and flaming device, wherein the heating and flaming device is positioned between the second wire pressing tile seat and the second preforming device, the second preforming device is positioned on the left side of the second branching disc, the second branching disc is positioned on the left side of the second stranding mechanism, the second stranding mechanism is rotatably connected with the second gearbox, the second gearbox is positioned on the first wire pressing tile seat, the first wire pressing tile seat is positioned on the left side of the first preforming device, the first branching disc is positioned on the left side of the first branching disc, the first stranding mechanism is rotatably connected with the first gearbox, the rear side of the first wire pressing tile seat is provided with an injection molding machine, the injection molding machine is provided with a first spray head and a second spray head, the second spray head is connected with an outer layer injection molding area, the outer layer injection molding area is positioned on the left side of the first wire pressing tile seat, an inner layer injection molding area is arranged on the first wire pressing tile seat and is connected with the first spray head, the first spray head is positioned between the first wire pressing tile seat and the first preforming device, the outer layer injection molding area is positioned on the left side of the first wire pressing tile seat due to the fact that the second spray head is connected with the outer layer injection molding area, the first wire pressing tile seat is provided with the inner layer injection molding area, the inner layer injection molding area is connected with the first spray head, the first spray head is positioned between the first wire pressing tile seat and the first preforming device, the first spray head is an injection molding head which is injected on the inner layer of the wire rope, and the second spray head is a coating head, when the steel wire rope is used, the outer layer of the steel wire rope can be in contact friction with the pulley and the rope groove of the winding drum to cause abrasion on the surface of the steel wire of the outer layer of the steel wire rope strand, particularly when hoisting acceleration and deceleration motions are carried out, the contact part of the steel wire rope and the pulley is particularly obvious, and the outer layer of the steel wire rope can be ground in a plane shape, lead to anti rotation nature variation and anti extrusion variation to make wire rope life shorten, consequently this online injection coating wire rope closes rope machine can the wire rope skin of online plastic-coated look more pleasing to the eye, the wire rope structure is more stable, it is good with anti extrudability to make it have shock-absorbing nature, the life of wire rope has been improved, it not only makes wire rope have anti rotation nature and anti extrudability good to make the wire rope have simultaneously online injection coating, and make the wire rope ectonexine, can not produce direct contact friction between layer thigh and the thigh, effectively prevent the disconnected silk phenomenon of friction, can prolong wire rope's life.

Preferably, the first winch mechanism comprises a first brake disc, two or more first wire frames, two or more first winches and two or more first riding wheels, the first riding wheels are rotatably connected with the first winch, the first winch is located on the left side of the first wire frame, the left side of the first wire frame is fixedly connected with the first brake disc, the first riding wheels are rotatably connected with the first winch, the first winch is located on the left side of the first wire frame, and the left side of the first wire frame is fixedly connected with the first brake disc.

Preferably, the second winch body mechanism comprises a second brake disc, two or more second wire frames, two or more second winches and two or more second riding wheels, the second riding wheels are rotatably connected with the second winches, the second winches are located on the left sides of the second wire frames, the left sides of the second wire frames are fixedly connected with the second brake disc, the second riding wheels are rotatably connected with the second winches, the second winches are located on the left sides of the second wire frames, and the left sides of the second wire frames are fixedly connected with the second brake disc.

Preferably, the first gearbox is provided with a first transmission shaft, the first transmission shaft sequentially penetrates through the first brake disc and the first bobbin, the first transmission shaft is fixedly connected with the first capstan, and the first gearbox drives the first capstan to start the first layer of twisted rope to work through the first transmission shaft, so that the working efficiency of the first layer of twisted rope of the steel wire rope is improved.

Preferably, the second gearbox is provided with a second transmission shaft, the second transmission shaft sequentially penetrates through the second brake disc and the second line frame, the second transmission shaft is fixedly connected with the second winch, and the second gearbox drives the second winch to start the second layer of stranded ropes to work through the second transmission shaft, so that the working efficiency of the second layer of stranded ropes is improved.

Preferably, the first preforming device comprises a first center support shaft and two or more first guide wheel discs, the first guide wheel discs are fixed on the first center support shaft, and the first guide wheel discs are fixed on the first center support shaft and can convey the first layer of steel wire rope strands to the inner layer injection molding area for steel wire rope strand inner layer injection molding, so that the working efficiency is improved.

Preferably, the second preforming device comprises a second center support shaft and two or more second guide wheel discs, the second guide wheel discs are fixed on the second center support shaft, the second guide wheel discs can convey a second layer of steel wire rope strands to the heating and flaming device, meanwhile, the first layer of steel wire rope strands subjected to injection molding enter the heating and flaming device along the center line, and then the heating and flaming device carries out flaming heating treatment on the first layer of steel wire rope strands subjected to injection molding, so that plastics of the steel wire rope strands are uniformly distributed in the inner layer and the outer layer of the first layer of steel wire rope strands, and the service life of the double-layer steel wire rope is prolonged.

Preferably, the heating flame projecting device includes gas cylinder, conveyer pipe and flame projecting head, the flame projecting head is connected with the gas cylinder through the conveyer pipe, and this flame projecting head is located second preforming device left side, because the flame projecting head is connected with the gas cylinder through the conveyer pipe, and this flame projecting head is located second preforming device left side, this gas cylinder is with gaseous for the flame projecting head air feed through the conveyer pipe, makes the flame projecting head start the flame projecting work, makes its plastics evenly distributed in first layer injection plastic-coated wire rope strand inlayer and skin to double-deck wire rope's life has been improved.

Preferably, the first brake disc is provided with a first brake, the first brake is fixed on the first brake disc, and the first brake can control the first brake disc to stop the first twisting mechanism because the first brake is fixed on the first brake disc, so that the online plastic-injection steel wire rope twisting machine has a braking effect.

Preferably, the second brake disc is provided with a second brake, the second brake is fixed on the second brake disc, and the second brake is fixed on the second brake disc and can control the second brake disc to stop the second twisting mechanism, so that the online plastic-injection steel wire rope combiner has a braking effect.

Compared with the prior art, the utility model discloses beneficial technological effect mainly embodies: the utility model is connected with an outer injection molding area through a second nozzle, the outer injection molding area is positioned at the left side of a first pressing tile seat, an inner injection molding area is arranged on the first pressing tile seat, the inner injection molding area is connected with the first nozzle, the first nozzle is positioned between the first pressing tile seat and a first preforming device, the first nozzle is an injection molding head which is injected at the inner layer of the steel wire rope, and the second nozzle is a coating head which is coated on the outer layer of the steel wire rope, when in work, the first nozzle can inject plastics to the inner injection molding area of the steel wire rope for steel wire rope inner layer injection molding, and the second nozzle coats plastics to the outer injection molding area of the steel wire rope, thereby solving the problems that the steel wire rope produced by the traditional steel wire rope combining machine in the prior art can be bent when in use, and direct contact friction can be generated among all rope strands at the inner side of the steel wire, after the steel wire rope is fatigued, the wire breakage phenomenon can occur, then the wire breakage number of the steel wire rope is gradually increased, the time interval is shorter and shorter, so that the service life of the steel wire rope is shortened, when the steel wire rope is used, the outer layer of the steel wire rope can be in contact friction with a pulley and a rope groove of a winding drum, so that the abrasion of the surface of a steel wire of an outer layer rope strand of the steel wire rope is caused, particularly, when the hoisting is accelerated and decelerated, the contact part of the steel wire rope and the pulley is particularly obvious, the outer layer of the steel wire rope can be ground into a plane shape, so that the rotation resistance and the extrusion resistance are poor, the service life of the steel wire rope is shortened, therefore, the online injection-coating steel wire rope combining machine can ensure that the online plastic-coated steel wire rope outer layer looks more beautiful, the structure of the steel wire rope is more stable, the vibration resistance and the extrusion resistance are good, and the inner layer and the outer layer of the steel wire rope, the strands on the same layer and the strands are not in direct contact friction, the phenomenon of friction wire breakage is effectively prevented, the service life of the steel wire rope can be prolonged, the first riding wheel is rotationally connected with the first winch, the first winch is positioned on the left side of the first wire frame, the left side of the first wire frame is fixedly connected with the first brake disc, when the steel wire rope forming machine works, the first winch can be used for twisting a single steel wire in the first wire frame into a strand, so that the multi-strand steel wire rope is prepared for next injection molding of the strand of the inner layer of the steel wire rope and the strand of the outer layer of the steel wire rope, the working efficiency of on-line injection molding of the steel wire rope is improved, meanwhile, the second riding wheel is rotationally connected with the second winch, the second winch is positioned on the left side of the second wire frame, the left side of the second wire frame is fixedly connected with, therefore, a plurality of steel wire ropes are wrapped outside the steel wire rope strands after injection molding is completed, preparation is made for the next two-layer steel wire rope strand molding, the service life of the on-line injection molding steel wire rope double-layer molding is prolonged, the first transmission shaft sequentially penetrates through the first brake disc and the first reel, is fixedly connected with the first capstan, the first gearbox drives the first capstan to start the first layer of stranding operation through the first transmission shaft, so that the working efficiency of the first layer of stranding of the steel wire ropes is improved, meanwhile, the second transmission shaft sequentially penetrates through the second brake disc and the second reel, is fixedly connected with the second capstan, the second gearbox drives the second capstan to start the second layer of stranding operation through the second transmission shaft, so that the working efficiency of the second layer of stranding is improved, and the first guide pulley disc is fixed on the first central support shaft, the first guide wheel disc can convey a first layer of steel wire rope strands to an inner layer injection molding area for steel wire rope strand inner layer injection molding, so that the working efficiency is improved, meanwhile, the second guide wheel disc is fixed on a second center support shaft, the second guide wheel disc can convey a second layer of steel wire rope strands to a heating flame projecting device, meanwhile, the first layer of steel wire rope strands which are subjected to injection molding enter the heating flame projecting device along a center line, then the heating flame projecting device carries out flame projecting and heating treatment on the first layer of steel wire rope strands which are subjected to injection molding, so that plastics of the steel wire rope strands are uniformly distributed in an inner layer and an outer layer of the first layer of steel wire rope strands, so that the service life of the double-layer steel wire rope is prolonged, the flame projecting head is connected with a gas cylinder through a conveying pipe, the flame projecting head is positioned on the left side of the second preforming device, and the gas cylinder supplies gas to the, the fire-spraying head starts to spray fire, plastics of the fire-spraying head are uniformly distributed in the inner layer and the outer layer of the first layer of plastic-injected steel wire rope strands, so that the service life of the double-layer steel wire rope is prolonged, meanwhile, the first brake is fixed on the first brake disc, the first brake disc can control the first brake disc to stop the first twisting body mechanism, the online plastic-injected steel wire rope-stranding machine has a braking effect, the second brake is fixed on the second brake disc, the second brake disc can control the second brake disc to stop the second twisting body mechanism, and the online plastic-injected steel wire rope-stranding machine has a braking effect.

Drawings

FIG. 1: the top view of the utility model;

FIG. 2: the utility model removes the front view of the flaming heating device and the injection molding machine;

FIG. 3: the utility model discloses a partial enlarged view at the A position;

FIG. 4: the utility model discloses the partial enlarged view at the B position;

FIG. 5: the utility model discloses a partial enlarged view at the C position;

FIG. 6: the utility model discloses the local enlargements of D department.

Wherein: 1-a first gearbox; 2-a first hinge mechanism; 3-a first tap reel; 4-a first preforming device; 5-a first wire pressing tile seat; 6-a second gearbox; 7-a second twisting body mechanism; 8-a second distribution board; 9-a second preforming device; 10-a second wire pressing tile seat; 11-heating the flaming device; 12-an injection molding machine; 13-a first spray head; 14-a second spray head; 15-outer layer injection molding area; 16-inner layer injection molding area; 17-a first brake disc; 18-a first bobbin; 19-a first capstan; 20-a first riding wheel; 21-a second brake disc; 22-a second wire stand; 23-a second capstan; 24-a second riding wheel; 25-a first drive shaft; 26-a second drive shaft; 27-a first central support shaft; 28-a first pulley disc; 29-a second central support shaft; 30-a second wheel disk; 31-a gas cylinder; 32-a delivery pipe; 33-flame spray head; 34-a first brake; 35-second brake.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings, so that the technical solution of the present invention can be more easily understood and grasped.

As shown in fig. 1-6, an on-line injection-plastic-coated steel wire rope stranding machine comprises a first gear box 1, a first stranding mechanism 2, a first wire-dividing disc 3, a first preforming device 4, a first wire-pressing tile seat 5, a second gear box 6, a second stranding mechanism 7, a second wire-dividing disc 8, a second preforming device 9, a second wire-pressing tile seat 10 and a heating and flaming device 11, wherein the heating and flaming device 11 is positioned between the second wire-pressing tile seat 10 and the second preforming device 9, the second preforming device 9 is positioned on the left side of the second wire-pressing disc 8, the second wire-dividing disc 8 is positioned on the left side of the second stranding mechanism 7, the second stranding mechanism 7 is rotatably connected with the second gear box 6, the second gear box 6 is positioned on the first wire-pressing tile seat 5 is positioned on the left side of the first preforming device 4, the first preforming device 4 is positioned on the left side of the first wire-dividing disc 3, the first wire distributing disc 3 is positioned on the left side of a first twisting mechanism 2, the first twisting mechanism 2 is rotatably connected with a first gearbox 1, an injection molding machine 12 is arranged on the rear side of a first wire pressing tile seat 5, the injection molding machine 12 is provided with a first spray head 13 and a second spray head 14, the second spray head 14 is connected with an outer injection molding area 15, the outer injection molding area 15 is positioned on the left side of the first wire pressing tile seat 5, an inner injection molding area 16 is arranged on the first wire pressing tile seat 5, the inner injection molding area 16 is connected with the first spray head 13, the first spray head 13 is positioned between the first wire pressing tile seat 5 and the first preforming device 4, the first twisting mechanism 2 comprises a first brake disc 17, two or more first wire frames 18, two or more first twisting discs 19 and two or more first riding wheels 20, the first riding wheels 20 are rotatably connected with the first twisting disc 19, the first winch 19 is located on the left side of the first bobbin 18, the left side of the first bobbin 18 is fixedly connected with the first brake disc 17, the second winch body mechanism 7 comprises a second brake disc 21, two or more second bobbins 22, two or more second winches 23 and two or more second riding wheels 24, the second riding wheels 24 are rotatably connected with the second winches 23, the second winches 23 are located on the left side of the second bobbin 22, the left side of the second bobbin 22 is fixedly connected with the second brake disc 21, the first gearbox 1 is provided with a first transmission shaft 25, the first transmission shaft 25 sequentially penetrates through the first brake disc 17 and the first bobbin 18, the first transmission shaft 25 is fixedly connected with the first winch 19, the second gearbox 6 is provided with a second transmission shaft 26, the second transmission shaft 26 sequentially penetrates through the second brake disc 21 and the second bobbin 22, and the second transmission shaft 26 is fixedly connected with the second capstan 23, the first preforming device 4 comprises a first central support shaft 27 and two or more first guide wheel discs 28, the first wheel disk 28 is fixed on a first central support shaft 27, the second preforming device 9 comprises a second central support shaft 29 and two or more second wheel disks 30, the second guide wheel disc 30 is fixed on a second central supporting shaft 29, the heating flame-throwing device 11 comprises a gas cylinder 31, a conveying pipe 32 and a flame-throwing head 33, the flame-throwing head 33 is connected with the gas cylinder 31 through the conveying pipe 32, and the flame-thrower head 33 is located on the left side of the second preforming device 9, the first brake disc 17 is provided with a first brake 34, the first brake 34 is fixed on the first brake disc 17, the second brake disc 21 is provided with a second brake 35, and the second brake 35 is fixed on the second brake disc 21.

The working process of the on-line injection-coated steel wire rope stranding machine is as follows: when the steel wire rope heating and spraying device works, the first gearbox 1 drives a first twisting disc 19 of a first twisting body mechanism 2 to twist steel wires on a first wire frame 18 together through a first transmission shaft 25 to form a first layer of steel wire rope strands, then the first layer of steel wire rope strands enter a first guide wheel disc 28 of a first preforming device 4 through a first wire dividing disc 3, then the first layer of steel wire rope strands are sent to an inner layer injection molding area 16 through the first guide wheel disc 28, at the moment, an injection molding machine 12 injects plastics to the inner layer of the first layer of steel wire rope strands through a first nozzle 13, then a first wire pressing tile seat 5 compresses the first layer of steel wire rope strands, then the injection molding machine 12 coats the plastics to the outer layer of the first layer of steel wire rope strands through a second nozzle 14 to achieve the purposes of gluing and plastic injection, then the first layer of steel wire rope strands which are subjected to plastic injection along a central line enter a heating and spraying device 11, and then a spraying head 33 of the heating and spraying the first layer of the heating and spraying device 11 is used And processing to ensure that plastics of the steel wire rope are uniformly distributed in the inner layer and the outer layer of the first layer of steel wire rope strands which are subjected to plastic injection, meanwhile, the second gearbox 6 drives a second winch 23 of the second stranding mechanism 7 through a second transmission shaft 26 to stranding the steel wires on the second wire frame 22 together to form a second layer of steel wire rope strands, then the second layer of steel wire rope strands enter a second guide pulley plate 30 of the second preforming device 9 through a second wire distributing plate 8, then the second guide pulley plate 30 can convey the second layer of steel wire rope strands to a heating and flaming device 11, finally the second layer of steel wire rope strands and the first layer of steel wire rope strands which are subjected to plastic injection enter a second wire pressing tile seat 10, and then the second layer of steel wire rope strands and the first layer of steel wire rope strands are subjected to compression molding through the second wire pressing tile seat 10 to form the steel wire rope.

Of course, the above is only a specific application example of the present invention, and the protection scope of the present invention is not limited at all. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (10)

1. An online injection-plastic-coated steel wire rope stranding machine comprises a first gearbox, a first stranding mechanism, a first branching disc, a first preforming device, a first wire pressing tile seat, a second gearbox, a second stranding mechanism, a second branching disc, a second preforming device, a second wire pressing tile seat and a heating and flaming device, wherein the heating and flaming device is positioned between the second wire pressing tile seat and the second preforming device, the second preforming device is positioned on the left side of the second branching disc, the second branching disc is positioned on the left side of the second stranding mechanism, the second stranding mechanism is rotatably connected with the second gearbox, the second gearbox is positioned on the first wire pressing tile seat, the first wire pressing tile seat is positioned on the left side of the first preforming device, the first branching disc is positioned on the left side of the first branching disc, the first stranding mechanism is rotatably connected with the first gearbox, the injection molding machine is characterized in that the rear side of the first wire pressing tile seat is provided with an injection molding machine, the injection molding machine is provided with a first spray head and a second spray head, the second spray head is connected with an outer injection molding area, the outer injection molding area is located on the left side of the first wire pressing tile seat, an inner injection molding area is arranged on the first wire pressing tile seat, the inner injection molding area is connected with the first spray head, and the first spray head is located between the first wire pressing tile seat and the first performing device.

2. The on-line injection-molding plastic-coated steel wire rope stranding machine according to claim 1, wherein the first winch mechanism comprises a first brake disc, two or more first wire racks, two or more first winches and two or more first supporting wheels, the first supporting wheels are rotatably connected with the first brake disc, the first winches are located on the left side of the first wire racks, and the left side of the first wire racks is fixedly connected with the first brake disc.

3. The on-line injection molding steel wire rope twisting machine according to claim 1, wherein the second twisting body mechanism comprises a second brake disc, two or more second wire frames, two or more second winches, and two or more second riding wheels, the second riding wheels are rotatably connected with the second winches, the second winches are located on the left side of the second wire frames, and the left side of the second wire frames is fixedly connected with the second brake disc.

4. The on-line injection-molding plastic-coated steel wire rope winder as claimed in claim 2, wherein the first gearbox is provided with a first transmission shaft, the first transmission shaft sequentially penetrates through the first brake disc and the first bobbin, and the first transmission shaft is fixedly connected with the first capstan.

5. The on-line injection-molding steel wire rope twisting machine according to claim 3, wherein the second gearbox is provided with a second transmission shaft, the second transmission shaft sequentially penetrates through the second brake disc and the second wire frame, and the second transmission shaft is fixedly connected with the second winch.

6. The on-line injection-molded steel wire rope stranding machine as claimed in claim 1, wherein the first pre-molding device includes a first central support shaft and two or more first guide wheel discs, and the first guide wheel discs are fixed on the first central support shaft.

7. The on-line injection-molded steel wire rope closing machine as claimed in claim 1, wherein the second pre-molding device comprises a second central supporting shaft and two or more second guide wheel discs, and the second guide wheel discs are fixed on the second central supporting shaft.

8. The on-line injection-molding steel wire rope closing machine according to claim 1, wherein the heating flame-throwing device comprises a gas cylinder, a conveying pipe and a flame-throwing head, the flame-throwing head is connected with the gas cylinder through the conveying pipe, and the flame-throwing head is positioned on the left side of the second preforming device.

9. The on-line injection-molded steel wire rope winder as claimed in claim 2, wherein the first brake disc is provided with a first brake, and the first brake is fixed on the first brake disc.

10. The on-line injection-molded steel wire rope winder as claimed in claim 3, wherein a second brake disc is provided with a second brake, and the second brake is fixed on the second brake disc.

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