CN114671297A - Steel wire rope coiling machine - Google Patents

Abstract

The invention relates to the field of steel wire rope equipment, in particular to a steel wire rope coiling machine which comprises a conveying machine part, a bending machine part butted with the conveying machine part and a coiling roller arranged at the discharge end of the bending machine part; the bending machine part is internally provided with: the guide assembly is arranged at the feeding end of the bending machine part and used for guiding the steel wire rope into the carriage of the bending machine part; the internal pressure assembly is arranged on the inner side of the steel wire rope in the bending direction and is used for extruding the steel wire rope; the external pressure assembly is arranged on the outer side of the steel wire rope in the bending direction and forms a gap for penetrating through the steel wire rope with the internal pressure assembly, the limiting assembly is composed of a plurality of limiting supporting pieces, and an arc-shaped arrangement trend is formed between the limiting supporting pieces. The steel wire rope automatic control device disclosed by the invention can be used for integrally and automatically operating, so that the torsion existing in the steel wire rope can be effectively overcome, and the direct contact between constructors and the steel wire rope is avoided for the operators, thereby effectively ensuring the operation safety of the operators.

Description

Steel wire rope coiling machine

Technical Field

The invention relates to the field of steel wire rope equipment, in particular to a steel wire rope coiling machine.

Background

In the work progress, in order to make the construction more laborsaving, simple and convenient, often use wire rope to carry out supplementary construction, but do not have dedicated wire rope coiling device in the existing market, can use equipment such as pay-off rack, tractor, spiral trailer to coil the exhibition according to actual conditions when coiling use wire rope or maintenance arrangement wire rope, but these modes have a lot of drawbacks, and whole operation is complicated, and it is higher to need equipment cost, but the treatment effeciency is lower.

No matter adopt equipment such as pay off rack, lead line machine, spiral trailer or adopt traditional manual work mode among the prior art, all need constructor and wire rope direct contact basically, must produce huge torsion when coiling wire rope, especially wire rope is when coiling after the shaping of accomodating for the first time, and torsion can be very big, not only very difficulty when crooked, can bring certain potential safety hazard for constructor moreover.

Disclosure of Invention

The invention aims to provide a steel wire rope coiling machine to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a steel wire rope coiling machine comprises a conveying machine part, a bending machine part butted with the conveying machine part, and a coiling roller arranged at the discharge end of the bending machine part;

the bending machine member is provided with: the conveying component is arranged at the starting end of the conveying machine member and is used for inputting the steel wire rope;

the bearing component is arranged on the conveying machine part and is used for bearing the steel wire rope, one end of the bearing component is butted by the conveying component, and the other end of the bearing component is connected with the bending machine part;

the bending machine part is internally provided with: the guide assembly is arranged at the feeding end of the bending machine part and used for guiding the steel wire rope into the carriage of the bending machine part;

the internal pressure assembly is arranged on the inner side of the steel wire rope in the bending direction and is used for extruding the steel wire rope;

the external pressure assembly is arranged on the outer side of the steel wire rope in the bending direction and forms a gap for penetrating through the steel wire rope with the internal pressure assembly, the limiting assembly is composed of a plurality of limiting supporting pieces, and an arc-shaped arrangement trend is formed between the limiting supporting pieces.

As a further scheme of the invention: a guide cavity is arranged at a machine chamber feeding port of the bending machine part, the guide assembly is arranged in the guide cavity, and the guide assembly comprises guide frames which are symmetrically arranged;

as a further scheme of the invention: the guide frame comprises an installation base block arranged on the inner wall of the guide cavity, a support frame arranged on the installation base block and an inner penetrating frame arranged on the support frame, wherein the inner penetrating frame is provided with a positioning roller column and a movable roller column respectively, and a roller shaft of the movable roller column is externally connected with a power shaft through a shaft sleeve.

As a further scheme of the invention: the internal pressure component is composed of mutually meshed internal pressure rollers, each internal pressure roller comprises a support rotating shaft, a support roller column arranged on the support rotating shaft and a plurality of internal pressure bulges arranged on the support roller columns, and the internal pressure bulges between the internal pressure rollers are mutually meshed.

As a further scheme of the invention: the limiting support piece comprises a guide roller positioned at the discharge end of the guide cavity and an outer pressure roller set arranged in a curve trend, and the outer pressure roller set is arranged to the position of a machine box discharge hole of the bending part along the guide roller.

As a further scheme of the invention: the roller shaft of the limiting roller is externally connected with a synchronizing wheel, and the synchronizing wheels of each external pressure roller group are connected through a synchronizing belt.

The inner pressure bulge comprises a curved surface substrate fixed on the roller surface of the supporting roller column, a plastic inner supporting ring arranged on the curved surface substrate and a hard outer supporting ring wrapped on the periphery of the plastic inner supporting ring.

As a further scheme of the invention: the inner cavity of the carriage of the bending machine part is also provided with a cooling part, the cooling part is arranged between the outer pressure roller sets, a cooling liquid pipeline is arranged on the cooling part, the cooling liquid pipeline extends inwards and is provided with a spray head, and the spray head is positioned in a gap formed by the outer pressure assembly and the inner pressure assembly.

As a further scheme of the invention: conveying unit installs on the transport face of carrying the parts, conveying unit includes the transmission frame who carries on the parts, sets up a plurality of conveying rollers on the transmission frame, the roller of conveying roller is synchronous drive through the track, the arris strip is stirred in the equidistance of having arranged on the roll surface of conveying roller.

As a still further scheme of the invention: the bearing assembly comprises a bearing box arranged on the conveying machine part, an inner containing cavity is arranged in the bearing box, a bearing platen which is positioned on the same plane with the fixed point tangent of the conveying roller is arranged on the bearing box, and the bearing platen is communicated with the inner containing cavity and is provided with a plurality of oil outlets.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, a steel wire rope penetrates into a cage of a bending machine member, a first member passes through a guide assembly, the guide assembly bends the steel wire rope preliminarily and penetrates into a space between an inner pressure assembly and an outer pressure assembly from a guide way, and a gap exists between the inner pressure assembly and the outer pressure assembly for the steel wire rope to penetrate out along a gap track; in wire rope transportation process, effort is applyed to its internal pressure subassembly to make wire rope bending deformation, the external pressure subassembly is with the wire rope pressfitting, makes wire rope and internal pressure subassembly contact, effectively overcomes the huge torsion that wire rope itself exists then, makes wire rope deformation gradually be crooked trend, and then the wire rope of being convenient for is coiling and is accomodate the processing. The steel wire rope automatic control device disclosed by the invention can be used for integrally and automatically operating, so that the torsion existing in the steel wire rope can be effectively overcome, and the direct contact between constructors and the steel wire rope is avoided for the operators, thereby effectively ensuring the operation safety of the operators.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application. Also, the drawings and the description are not intended to limit the scope of the present concepts in any way, but rather to illustrate the concepts of the present disclosure to those skilled in the art by reference to specific embodiments.

Fig. 1 is a schematic view of an overall structure of a wire rope coiling machine according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a guide assembly according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a guide frame according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a bending mechanism according to an embodiment of the present invention.

FIG. 5 is a schematic structural diagram of the area A in FIG. 4 according to the present invention.

Fig. 6 is a schematic structural diagram of a conveying assembly according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a carrier assembly according to an embodiment of the present invention.

In the figure: 11. a conveying work; 12. a bending work; 13. a coiling roller; 14. a delivery assembly; 15. a load bearing assembly; 16. a guide assembly; 17. an external pressure assembly; 18. an internal pressure assembly; 19. a limiting support member; 21. a guide chamber; 22. a cage feed inlet; 23. a guide frame; 24. installing a base block; 25. a holder; 26. an inner through frame; 27. a movable roller; 28. a power shaft; 29. positioning the roller; 31. a guide roller; 32. an external pressure roller set; 33. an inner compression roller; 34. a cabin discharge port; 41. a synchronizing wheel; 42. a limiting roller; 43. a synchronous belt; 44. a support shaft; 45. supporting the roller; 46. an internal pressure bulge; 47. a curved substrate; 48. molding an inner support ring; 49. a hard outer support ring; 51. a cooling member; 52. a coolant line; 53. a spray head; 61. a carrying box; 62. an inner cavity; 63. a load-bearing platen; 64. an oil outlet hole; 71. a drive frame; 72. a conveying roller; 73. the ribs are shifted.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, examples of which are shown in the drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements, unless otherwise indicated.

It should be apparent that the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

In one embodiment;

referring to fig. 1, a wire rope coiling machine is provided, which comprises a conveying machine member 11, a bending machine member 12 butted with the conveying machine member 11, and a coiling roller 13 arranged at the discharge end of the bending machine member 12; the winding roller 13 is a wire rope storage member for winding and storing the wire rope that has passed through the bending machine 12.

The bending organ 12 is provided with: a conveying component 14 which is arranged at the starting end of the conveying machine member 11 and is used for inputting the steel wire rope;

a carrier assembly 15 mounted on the conveying member 11 for carrying the steel wire rope, one end of which is butted with the conveying assembly 14, and the other end of which is jointed with the bending member 12;

inside the bending organ 12 are provided: a guide assembly 16 arranged at the feeding end of the curved work 12 for guiding the wire rope into the cage of the curved work 12;

the internal pressure component 18 is arranged on the inner side of the bending direction of the steel wire rope and is used for extruding the steel wire rope;

the external pressure assembly 17 is arranged on the outer side of the steel wire rope in the bending direction and forms a gap for penetrating through the steel wire rope with the internal pressure assembly 18, the external pressure assembly 17 is composed of a plurality of limiting support members 19, and an arc-shaped arrangement trend is formed among the limiting support members 19.

When the steel wire rope is coiled, the steel wire rope is erected at the starting end of the conveying machine part 11, namely the conveying component 14, the conveying component 14 drives the steel wire rope to move so as to continuously convey the steel wire rope, and the bearing component 15 is used for supporting the steel wire rope, so that the steel wire rope is prevented from being bent and deformed due to gravity.

The steel wire rope penetrates into a carriage of the bending machine element 12, the first part passes through the guide assembly 16, the guide assembly 16 bends the steel wire rope preliminarily and penetrates into a space between the inner pressure assembly 18 and the outer pressure assembly 17 from the guide, and a gap exists between the inner pressure assembly 18 and the outer pressure assembly 17 for the steel wire rope to penetrate out along a gap track; in wire rope transportation process, effort is applyed to its internal pressure subassembly 18 to make wire rope bending deformation, external pressure subassembly 17 is with the wire rope pressfitting, makes wire rope and internal pressure subassembly 18 contact, effectively overcomes the huge torsion that wire rope itself exists then, makes wire rope deformation gradually be crooked trend, and then the wire rope of being convenient for is coiling and is accomodate the processing. The steel wire rope automatic control device disclosed by the invention can be used for integrally and automatically operating, so that the torsion existing in the steel wire rope can be effectively overcome, and the direct contact between constructors and the steel wire rope is avoided for the operators, thereby effectively ensuring the operation safety of the operators.

In one embodiment;

for the guide assembly 16, the present embodiment designs the following technical structure:

referring to fig. 2 and 3, a guide cavity 21 is disposed at a position of a carriage feeding port 22 of the bending machine member 12, the guide assembly 16 is disposed in the guide cavity 21, and the guide assembly 16 includes guide frames 23 symmetrically arranged with respect to each other;

the guide frame 23 comprises an installation base block 24 installed on the inner wall of the guide cavity 21, a support frame 25 arranged on the installation base block 24, and an inner penetrating frame 26 arranged on the support frame, wherein a positioning roller 29 and a movable roller 27 are respectively installed on the inner penetrating frame 26, a roller shaft of the movable roller 27 is externally connected with a power shaft 28 through a shaft sleeve, and the power shaft 28 is used for driving the movable roller 27 to rotate.

The guide assembly 16 is arranged at a machine box feeding port 22 of the bending machine member 12 and is used for turning the steel wire rope from a straight trend to a curved trend; in the operation of this embodiment, the steel wire rope is inserted into the middle of the guide frames 23 symmetrically arranged, that is, clamped between the positioning roller 29 and the movable roller 27, and the movable roller 27 is adjustably mounted on the inner through frame 26, so that the distance between the positioning roller 29 and the movable roller 27 can be adjusted according to the outer diameter of the steel wire rope, that is, the positioning roller 29 and the movable roller 27 can be kept in contact with the outer surface of the steel wire rope,

the symmetrical axes of the guide frames 23 at the two sides are obliquely arranged relative to the conveying machine element 11, so that the steel wire rope passes through the guide frames 23 at the two sides and is obliquely oriented, the steel wire rope is limited by the positioning rollers 29 and the movable rollers 27, and when the former guide frame 23 is guided into the latter guide frame 23, the steel wire rope can initially form a bending operation trend; the steel wire rope is driven to advance by matching with the rotation of the movable roller column 27;

the guide frames 23 on both sides are symmetrically arranged, and then the rotatable movable rollers 27 are respectively positioned on the inner side and the outer side of the steel wire rope, so that the two sides assist in pushing the steel wire rope to convey, and the acting force given to the steel wire rope from both sides assists in changing the steel wire rope into a curved trend.

In one embodiment;

regarding the inner pressure assembly 18 and the outer pressure assembly 17, the present embodiment is designed as follows:

referring to fig. 4, the internal pressure assembly 18 is composed of internal pressure rollers 33 engaged with each other, the internal pressure rollers 33 include a support rotating shaft 44, a support roller column 45 installed on the support rotating shaft 44, and a plurality of internal pressure protrusions 46 disposed on the support roller column 45, and the internal pressure protrusions 46 between the internal pressure rollers 33 are engaged with each other.

The limiting support 19 comprises a guide roller 31 at the discharge end of the guide chamber 21 and an external pressure roller set 32 arranged in a curve trend, wherein the external pressure roller set 32 is arranged to a carriage discharge port 34 of the bending part 12 along the guide roller 31.

The specific implementation structure of the external pressure assembly 17 is a guide roller 31 and an external pressure roller set 32 arranged in a curve trend, so that a curve-shaped limiting part is formed, and the steel wire rope is bent in a curve shape; the steel wire rope is positioned in a gap between the inner pressure component 18 and the outer pressure component 17, the inner pressure component 18 is composed of inner pressing rollers 33 which are meshed with each other, the inner pressing rollers 33 extrude the steel wire rope to force the steel wire rope to bend, a plurality of inner pressure bulges 46 are arranged on the surface of the supporting roller column 45, and each inner pressure bulge 46 is an extrusion point in the rotating process; compared with surface extrusion, the extrusion force of point extrusion is larger, and the effect of extrusion molding is more obvious; each internal pressure protrusion 46 rotates along with the support roller 45, so that a plurality of point extrusion is converted into line extrusion, and the bending and molding effect of the steel wire rope is achieved integrally.

In the embodiment, the mutually-meshed inner compression rollers 33 are adopted, one inner compression roller 33 is driven by external power, the other inner compression roller 33 is driven due to meshing, the steering direction of the inner compression roller 33 driven by the inner compression roller is the same as the trend of the steel wire rope (namely, the clockwise direction in the drawing), the steering direction of the driven inner compression roller 33 is opposite to the trend of the steel wire rope (namely, the anticlockwise direction in the drawing), the inner compression roller 33 driven by the inner compression roller is matched with the guide roller 31, the auxiliary steel wire rope penetrates into the gap space formed by the inner compression assembly 18 and the outer compression assembly 17, the driven inner compression roller 33 is opposite to the trend of the steel wire rope, the steel wire rope embedded into the gap space is extruded, the contact is more obvious, and the complete extrusion effect is better.

In one case of the present embodiment,

referring to fig. 4, each set of outer pressure roller set 32 is composed of a plurality of synchronously driven limit rollers 42, the roller shafts of the limit rollers 42 are externally connected with synchronizing wheels 41, and the synchronizing wheels 41 of each set of outer pressure roller set 32 are connected through a synchronous belt 43. A plurality of outer pressure roller sets 32 are adopted to form an outer side limiting structure in a curve trend; as an example, fig. 1 shows a mechanism arrangement of a disc device on a flat tube; the two groups of outer pressure roller sets 32 are arranged, each group of outer pressure roller sets 32 is composed of two limiting rollers 42, the number of the outer pressure roller sets is specifically arranged, and the number can be set according to actual requirements.

In one case of the present embodiment,

this embodiment addresses the torque of the cord, but avoids excessive squeezing of the cord by the internal pressure protrusions 46, which would cause individual notches in the cord. Therefore, the following implementation structure is also designed;

referring to fig. 4 and 5, the internal pressure protrusion 46 includes a curved substrate 47 fixed on the roller surface of the supporting roller 45, a molding inner rim 48 disposed on the curved substrate 47, and a hard outer rim 49 wrapped around the molding inner rim 48.

In the embodiment, the inner plastic rim 48 is made of a material with certain elasticity and lower rigidity, and the outer hard rim 49 is made of a material with higher rigidity; the hard outer support ring 49 protects the plastic inner support ring 48, on one hand, the hard outer support ring 49 ensures that a certain supporting force is provided for the steel wire rope, and the steel wire rope cannot be abraded; on the other hand, the steel wire rope extrudes the inner pressing bulge 46, so that the inner support ring 48 in the molding is deformed in a shrinking manner, the problem of single-point area indent of the steel wire rope is avoided, the steel wire rope is enabled to be smoothly transited from a straight line to a curve, and the risk of notch appearance is avoided.

In one embodiment;

referring to fig. 4, the cabin cavity of the bending part 12 is further provided with a cooling member 51, the cooling member 51 is disposed between the outer pressure roller set 32, the cooling member 51 is provided with a cooling liquid pipe 52, the cooling liquid pipe 52 extends inwards and is provided with a spray head 53, and the spray head 53 is located in a gap formed between the outer pressure assembly 17 and the inner pressure assembly 18.

A large amount of heat energy is inevitably generated in the process of contacting and extruding the steel wire rope with the inner compression roller 33 and the limiting roller 42 and the process of overcoming the torsional deformation of the steel wire rope, so that the temperature of the steel wire rope is increased; therefore, the present embodiment also designs that the cabin inner cavity of the bending part 12 is further provided with a cooling part 51 for spraying cooling liquid for cooling the steel wire.

In one embodiment;

referring to fig. 6, the conveying assembly 14 is mounted on a conveying carrying surface of the conveying machine member 11, the conveying assembly 14 includes a transmission frame 71 on the conveying machine member 11, and a plurality of conveying rollers 72 disposed on the transmission frame 71, roller shafts of the conveying rollers 72 are synchronously driven by a crawler belt, and toggle ribs 73 are equidistantly arranged on a roller surface of the conveying rollers 72. In the embodiment, the conveying rollers 72 are used as transmission parts, and the plurality of conveying rollers 72 synchronously move, and the toggle ribs 73 on the surfaces of the conveying rollers push the steel wire rope to move, so that the steel wire rope is conveyed,

In one embodiment;

referring to fig. 7, the bearing assembly 15 includes a bearing box 61 installed on the conveying machine member 11, an inner cavity 62 is installed in the bearing box 61, a bearing platen 63 located on the same plane with the fixed point tangent line of the conveying roller 72 is disposed on the bearing box 61, and the bearing platen 63 is communicated with the inner cavity 62 and is provided with a plurality of oil outlets 64.

The bearing bedplate 63 is used for supporting the steel wire rope, and the steel wire rope is prevented from being bent and deformed due to gravity; meanwhile, when the steel wire rope penetrates into the inner cavity of the bending machine part 12, friction is inevitably generated between the steel wire rope and the inner compression roller 33 and the limiting roller 42, in order to reduce the influence caused by the friction, the bearing table plate 63 is arranged on the bearing box 61, the inner containing cavity 62 is arranged in the bearing box 61, lubricating oil is placed in the inner containing cavity 62, the lubricating oil overflows through the oil outlet 64, and when the steel wire rope passes through the bearing table plate 63, the lubricating oil is coated on the steel wire rope, so that the effect of protecting the steel wire rope is achieved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A steel wire rope coiling machine comprises a conveying machine part, a bending machine part butted with the conveying machine part, and a coiling roller arranged at the discharge end of the bending machine part; it is characterized in that the preparation method is characterized in that,

the bending machine member is provided with:

the conveying component is arranged at the starting end of the conveying machine member and is used for inputting the steel wire rope;

the bearing component is arranged on the conveying machine part and is used for bearing the steel wire rope, one end of the bearing component is butted by the conveying component, and the other end of the bearing component is connected with the bending machine part;

the bending machine part is internally provided with:

the guide assembly is arranged at the feeding end of the bending machine part and used for guiding the steel wire rope into the carriage of the bending machine part;

the internal pressure assembly is arranged on the inner side of the steel wire rope in the bending direction and is used for extruding the steel wire rope;

the external pressure assembly is arranged on the outer side of the steel wire rope in the bending direction and forms a gap for penetrating through the steel wire rope with the internal pressure assembly, the limiting assembly is composed of a plurality of limiting supporting pieces, and an arc-shaped arrangement trend is formed between the limiting supporting pieces.

2. The wire rope coiling machine as defined in claim 1, wherein a guide cavity is provided at a cage inlet position of the bending element, wherein the guide assemblies are provided in the guide cavity, and wherein the guide assemblies comprise guide frames arranged symmetrically with respect to each other.

3. The wire rope coiling machine as claimed in claim 2, wherein the guide frame comprises a mounting base block mounted on the inner wall of the guide chamber, a support frame arranged on the mounting base block, and an inner through frame arranged on the support frame, wherein the inner through frame is respectively provided with a positioning roller and a movable roller, and the roller shaft of the movable roller is externally connected with a power shaft through a shaft sleeve.

4. The wire rope coiling machine as defined in claim 3, wherein the internal pressure assembly is composed of internal pressure rollers engaged with each other, the internal pressure rollers including a support shaft, a support roller mounted on the support shaft, and a plurality of internal pressure protrusions provided on the support roller, the internal pressure protrusions between the internal pressure rollers being engaged with each other.

5. The wire rope coiling machine as defined in claim 4 wherein the spacing brace comprises a guide roller at the discharge end of the guide chamber and a set of outer pressure rollers arranged in a curvilinear trend along the guide roller to the car discharge location of the bending machine.

6. The wire rope coiling machine as claimed in claim 5, wherein each group of outer press roller sets is composed of a plurality of limit rollers which are synchronously driven, the roller shafts of the limit rollers are externally connected with synchronous wheels, and the synchronous wheels of each group of outer press roller sets are connected through synchronous belts.

7. The wire rope coiling machine as defined in claim 3, wherein the internal pressure protrusion comprises a curved substrate fixed on the roller surface of the support roller, a plastic inner support ring arranged on the curved substrate, and a hard outer support ring wrapped around the plastic inner support ring.

8. The wire rope coiling machine as defined in claim 5, wherein the cage cavity of the bending element is further provided with a cooling member disposed between the outer set of press rollers, the cooling member having a coolant conduit disposed thereon, the coolant conduit extending inwardly and having a spray head mounted thereon, the spray head being disposed in a gap formed between the outer and inner press assemblies.

9. The wire rope coiling machine as claimed in claim 1, wherein the conveying assembly is mounted on a conveying carrying surface of the conveying machine element, the conveying assembly comprises a transmission frame on the conveying machine element and a plurality of conveying rollers arranged on the transmission frame, roller shafts of the conveying rollers are synchronously driven through a crawler belt, and toggle ribs are equidistantly arranged on the roller surfaces of the conveying rollers.

10. The wire rope coiling machine as recited in claim 1, wherein the bearing assembly comprises a bearing box mounted on the conveying machine member, an inner cavity is arranged in the bearing box, a bearing platen which is positioned on the same plane with the fixed point tangent of the conveying roller is arranged on the bearing box, and the bearing platen is communicated with the inner cavity and is provided with a plurality of oil outlets.

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