CN216736954U

CN216736954U - Steel wire rope winding tool

Info

Publication number: CN216736954U
Application number: CN202123137916.6U
Authority: CN
Inventors: 袁长春; 程鸥
Original assignee: Hebei Chengjie Automobile Steering Machine Manufacturing Co ltd
Current assignee: Hebei Chengjie Automobile Steering Machine Manufacturing Co ltd
Priority date: 2021-12-14
Filing date: 2021-12-14
Publication date: 2022-06-14
Anticipated expiration: 2031-12-14

Abstract

The utility model provides a wire rope rolling frock, including base, swinging plate, live-rollers and loading element. The upper surface of the base is provided with a vertical frame, the swinging plate is arranged on the vertical frame in a swinging mode, and the swinging plate is connected with a swinging driving assembly. The rotating roller is rotatably connected to the swinging plate, and one end of the rotating roller extends out of the swinging plate and is connected with the rotating disc. The loading element is detachably connected to the side surface of the rotary disc, which is back to the swinging plate, and is used for loading the sleeve body. When in use, the sleeve body is sleeved on the surface of the loading element, and one end of the steel wire rope is connected with the sleeve body; then, the rotating roller is rotated to continuously wind the steel wire rope on the sleeve body. After the steel wire rope is rolled, the swinging plate is driven to swing downwards through the swinging driving assembly, and the sleeve body can move downwards so as to be conveniently dismounted manually. The utility model provides a wire rope rolling frock can adjust the vertical height of loading component to in the manual work load with demolish wire rope, improved the efficiency of this device when in-service use.

Description

Steel wire rope winding tool

Technical Field

The utility model belongs to the technical field of the wire rope rolling, concretely relates to wire rope rolling frock.

Background

The steel wire rope is formed by twisting a plurality of stranded steel wires around a fiber core or a steel wire rope core, and after the steel wire rope is processed or used, the steel wire rope needs to be rolled for convenient transportation and storage.

The conventional process steps include: firstly, a sleeve body is loaded on a winding device, then a steel wire rope is wound on the sleeve body through the winding device, and finally the sleeve body is manually dismounted.

The inventor finds that after the winding equipment finishes working, the winding position is far away from the ground, so that manual dismounting and winding are inconvenient, and the winding efficiency of the steel wire rope is reduced.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a wire rope rolling frock aims at solving because the rolling position is higher, is difficult to manual operation and leads to the technical problem that the rolling is inefficiency.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a wire rope rolling frock includes:

the base is a plate body with a rectangular cross section, and the upper surface of the base is provided with a vertical frame extending from bottom to top;

the swinging plate is arranged on the vertical frame in a swinging mode, and the swinging shaft direction is arranged along the horizontal direction; the swing plate is connected with a swing driving component for driving the swing plate to swing;

the rotating roller is rotatably connected to the plate surface of the swinging plate, which is back to the base, and the rotating axial direction of the rotating roller is arranged along the self axial direction and is parallel to the swinging axial direction of the swinging plate; one end of the rotating roller extends out of the swinging plate, and the extending end of the rotating roller is coaxially connected with a turntable; and

the loading element is detachably connected to the side surface, back to the swinging plate, of the turntable and is used for loading a sleeve body suitable for winding a steel wire rope;

wherein, along with the swing of the swing plate, the vertical spacing of the rotating rollers relative to the base changes correspondingly.

In one possible implementation, the swing drive assembly includes:

the two portal frames are arranged on the plate surface of the swinging plate facing the base at intervals along the axial direction of the rotating roller; the length direction of the door-shaped frame is arranged along the direction facing the vertical frame; the gate frame is provided with a gate opening, and the direction of the gate opening is parallel to the axial direction of the rotating roller;

the sliding rod is arranged on the surface of the swinging plate facing the base in a sliding manner along the length direction of the door-shaped frame, and two ends of the sliding rod are respectively inserted into the two door-shaped openings; and

the linear driving cylinder is fixedly arranged on the base, and the power output shaft is axially arranged along the vertical direction; and the power output end of the linear driving cylinder is provided with a shaft sleeve of which the axial direction is parallel to the axial direction of the sliding rod.

In a possible implementation manner, two hinge seats are arranged on the side surface of the swinging plate, which faces away from the base, at intervals along the axial direction of the rotating roller, and the hinge seats are provided with inserting parts for inserting the rotating roller;

have on the live-rollers with two articulated seat one-to-one's two sets of tight structures of clamp, it includes to press from both sides tight structure:

the two flange plates are arranged on the rotating roller at intervals along the axial direction of the rotating roller and are respectively positioned at two sides of the corresponding hinge seat so as to clamp the hinge seat.

In one possible implementation, the hinge base includes:

the connecting piece is fixedly connected to the swinging plate; the side surface of the connecting piece, which is back to the swinging plate, is provided with a first splicing groove, and the first splicing groove penetrates through the two sides of the connecting piece along the axial direction of the rotating roller; and

the base is detachably connected to the connecting piece; the side surface of the base facing the swinging plate is provided with a second splicing groove, and the second splicing groove penetrates through the two sides of the base along the axial direction of the rotating roller;

when the base is connected with the connecting piece, the first splicing groove is communicated with the second splicing groove to form the inserting part.

In one possible implementation manner, the connecting member and the base are connected by a connecting structure, and the connecting structure includes:

the first wing plate is fixedly connected to the connecting piece and extends outwards along the plate surface parallel to the swinging plate; the first wing plate is provided with a first positioning hole which penetrates along the direction vertical to the plate surface of the swinging plate;

the second wing plate is fixedly connected to the base and extends outwards along the plate surface parallel to the swinging plate; the second wing plate is provided with a second positioning hole which is penetrated in the direction vertical to the plate surface of the swinging plate; and

the positioning bolt is suitable for being inserted into the first positioning hole and the second positioning hole, a positioning nut is in threaded connection, and the positioning nut is suitable for being matched with the head of the positioning bolt to clamp the first wing plate and the second wing plate;

when the base is connected with the connecting piece, the first wing plate is attached to the second wing plate, and the first positioning hole is communicated with the second positioning hole.

In one possible implementation, the loading element comprises:

the supporting arms are arranged on the side surface of the rotary table, which is opposite to the rotating roller, at intervals along the circumferential direction of the rotary table; each supporting arm can slide along the radial direction of the turntable, and a locking structure is arranged between each supporting arm and the turntable and used for connecting the supporting arm and the turntable so as to limit the supporting arm to slide; and

the swing arms correspond to the support arms one by one, and each swing arm is connected to one end, back to the turntable, of the corresponding support arm in a swinging manner;

wherein the swing arm has a first swing position and a second swing position;

when the swing arm is in the first swing position, the axial direction of the swing arm is parallel to the axial direction of the supporting arms, and the sleeve body can pass through the swing arm and be sleeved on the peripheries of the supporting arms;

when the swing arm is in the second swing position, the axial direction of the swing arm is parallel to the radial direction of the turntable, and the swing end of the swing arm is arranged towards the outside of the turntable, so that the swing arm limits the sleeve body to move along the axial direction of the supporting arm;

and a limiting structure used for limiting the swing arm to be in the second swing position is arranged between the swing arm and the supporting arm.

In one possible implementation, the locking structure includes:

the locking flange extends outwards along the radial direction of the supporting arm;

the threaded groove is arranged on the end face, facing the turntable, of the supporting arm and extends along the axial direction of the supporting arm;

the strip-shaped hole is arranged on the turntable, extends along the sliding direction of the corresponding supporting arm and is suitable for being communicated with the thread groove; the inner hole wall of the strip-shaped hole is provided with a guide groove which extends along the sliding direction of the supporting arm and is suitable for the locking flange to be inserted; and

and the locking bolt is suitable for being inserted into the strip-shaped hole and communicated with the thread groove so as to be matched with the locking flange to clamp the supporting arm and the turntable.

In a possible implementation manner, the turntable is provided with a plurality of through holes corresponding to the strip-shaped holes one to one, the through holes are arranged along the circumferential direction of the turntable at intervals, and the through holes are located between two adjacent strip-shaped holes.

In one possible implementation, the limiting structure includes:

the limiting nut is fixedly connected to the swing arm and is provided with a threaded hole cavity arranged along the length direction of the swing arm;

the inserting groove is arranged on the peripheral wall of the supporting arm; and

the limiting bolt is in threaded connection with the threaded hole cavity and is suitable for being screwed in the axial direction of the threaded hole cavity and inserted into the inserting groove;

wherein when the swing arm is in the second swing position, the threaded bore is in coaxial communication with the socket.

In a possible implementation manner, the other end of the rotating roller extends out of the swinging plate, and the extending end of the rotating roller is provided with a handle which extends outwards along the radial direction of the rotating roller.

When in use, the sleeve body is sleeved on the surface of the loading element, and one end of the steel wire rope is connected with the sleeve body; then, the rotating roller is rotated, so that the rotating disc and the loading element are driven to rotate continuously, and the steel wire rope is wound on the sleeve body continuously.

In the process of winding the steel wire rope, the loading element can be driven to swing upwards by the swing driving component, so that the steel wire rope sleeved on the sleeve body is prevented from contacting the ground, and the steel wire rope is prevented from being damaged due to friction.

After the steel wire rope is rolled, the swinging driving assembly drives the swinging plate to swing downwards, and the sleeve body can move downwards so as to be conveniently manually dismantled.

The wire rope rolling frock that this embodiment provided can adjust the vertical height of loading the component through the swing of swinging plate to in the manual loading with demolish wire rope, improved the efficiency of this device when in-service use, guaranteed wire rope rolling operating efficiency's stability.

Drawings

Fig. 1 is one of schematic three-dimensional structural diagrams of a wire rope winding tool provided in an embodiment of the present invention;

fig. 2 is a second schematic perspective view of a steel wire rope winding tool according to an embodiment of the present invention (for convenience of illustration, a turntable and a loading element are hidden in the second schematic view);

FIG. 3 is a schematic view of a combination of a turntable and a loading element according to an embodiment of the present invention;

fig. 4 is an exploded view of a hinged seat used in the embodiment of the present invention;

FIG. 5 is an exploded view of a turning roll and loading member used in an embodiment of the present invention;

FIG. 6 is an enlarged partial view taken along circle A of FIG. 5;

description of the reference numerals:

1. a base; 11. erecting a frame; 12. a swing plate; 2. a swing drive assembly; 21. a gantry frame; 22. a slide bar; 23. a linear driving cylinder; 231. a shaft sleeve; 3. a rotating roller; 31. a turntable; 311. a through hole; 32. a flange plate; 33. a handle; 4. a loading element; 41. a support arm; 42. a swing arm; 5. a hinged seat; 51. a connecting member; 511. a first splice groove; 52. a base; 521. a second splice groove; 6. a connecting structure; 61. a first wing plate; 611. a first positioning hole; 62. a second wing plate; 621. a second positioning hole; 63. positioning a bolt; 631. positioning a nut; 7. a locking structure; 71. locking the flange; 72. a thread groove; 73. a strip-shaped hole; 731. a guide groove; 74. locking the bolt; 8. a limiting structure; 81. a limit nut; 82. a slot; 83. and a limiting bolt.

Detailed Description

In order to make the technical problem, technical solution and beneficial effects to be solved by the present invention more clearly understood, the following description is made in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Please refer to fig. 1 to fig. 6, a steel wire rope winding tool provided by the present invention will now be described. The steel wire rope winding tool comprises a base 1, a swing plate 12, a rotating roller 3 and a loading element 4.

The base 1 is a plate body with a rectangular cross section, and the upper surface of the base is provided with a vertical frame 11 extending from bottom to top.

The swing plate 12 is arranged on the vertical frame 11 in a swing mode, and the swing axial direction is arranged along the horizontal direction; as shown in fig. 1, the swing plate 12 swings at a maximum of ninety degrees on the front side of the stand 11, and in the present embodiment, the swing locus of the swing plate 12 is defined as a swing space.

The swing plate 12 is connected to a swing driving unit 2 for driving the swing plate to swing, and the swing driving unit 2 can drive the swing plate 12 to swing in the swing space.

The rotating roller 3 is rotatably connected to the plate surface of the swinging plate 12 back to the base 1, and the rotating axial direction is arranged along the self axial direction and is parallel to the swinging axial direction of the swinging plate 12.

One end of the rotating roller 3 extends out of the swinging plate 12, and the extending end of the rotating roller 3 is coaxially connected with a rotating disc 31, and the rotating disc 31 extends outwards along the radial direction of the rotating roller 3.

The loading element 4 is removably attached to the side of the turntable 31 facing away from the swinging plate 12 for loading the jacket adapted to wind the wire rope.

Wherein, along with the swing of the swing plate 12, the vertical distance of the rotating roller 3 relative to the base 1 changes correspondingly.

When in use, the sleeve body is sleeved on the surface of the loading element 4, and one end of the steel wire rope is connected with the sleeve body; subsequently, the rotating roller 3 is rotated, thereby driving the turntable 31 and the loading member 4 to rotate continuously, so that the wire rope is wound continuously around the jacket body.

In the process of winding the steel wire rope, the loading element 4 can be driven to swing upwards by the swing driving component 2, so that the steel wire rope sleeved on the sleeve body is prevented from contacting the ground, and the steel wire rope is prevented from being damaged due to friction.

After the steel wire rope is rolled, the swinging driving component 2 drives the swinging plate 12 to swing downwards, so that the sleeve body can move downwards, and the manual dismantling is facilitated.

The wire rope rolling frock that this embodiment provided can adjust the vertical height of loading component 4 through the swing of swing board 12 to in the manual work load with demolish wire rope, improved the efficiency of this device when in-service use, guaranteed wire rope rolling operating efficiency's stability.

In some embodiments, the oscillating drive assembly 2 of the above-described character may be configured as shown in fig. 2. Referring to fig. 2, the swing driving assembly 2 includes two gate frames 21, a sliding rod 22, and a linear driving cylinder 23.

Two gate frames 21 are provided on the plate surface of the swing plate 12 facing the base 1 at an interval in the axial direction of the rotating roller 3, and the longitudinal direction of each gate frame 21 is provided in the direction facing the stand 11.

The gate frame 21 has a gate opening facing in parallel with the axial direction of the rotating roller 3, and the gate opening is also provided extending in the longitudinal direction of the gate frame 21.

The sliding rod 22 is slidably disposed on the surface of the swing plate 12 facing the base 1 along the length direction of the door frame 21, and two ends of the sliding rod 22 are respectively inserted into the two door-shaped openings.

The linear driving cylinder 23 is fixedly arranged on the base 1, and the power output shaft is arranged along the vertical direction.

The power output end of the linear driving cylinder 23 is provided with a shaft sleeve 231, the axial direction of which is parallel to the axial direction of the sliding rod 22, the sliding rod 22 can be limited relative to the radial movement of the sliding rod through the shaft sleeve 231, and the sliding rod 22 can be driven to move in the vertical direction along with the lifting of the power output end of the linear driving cylinder 23.

When the sliding rod 22 is inserted into the door-shaped opening, the sliding rod 22 moves up and down to drive the swing plate 12 to swing through the door-shaped frame 21, so as to control the position of the swing plate 12.

By adopting the technical scheme, the linear driving cylinder 23 can drive the swing plate 12 to swing through the structure so as to replace manual adjustment, and the overall structure strength is reliable (namely the swing of the swing plate 12 can be limited), so that the reliability of the device in actual use is improved.

In some embodiments, the above-described feature of the swing plate 12 may be configured as shown in FIGS. 2 and 5. Referring to fig. 2 and 5, the side of the swing plate 12 facing away from the base 1 has two hinge seats 5 spaced apart in the axial direction of the rotating roller 3, and the hinge seats 5 have insertion portions for inserting the rotating roller 3.

The rotating roller 3 is provided with two groups of clamping structures which correspond to the two hinged seats 5 one by one, and the clamping structures comprise two flange plates 32; two flanges 32 are provided on the rotating roller 3 at intervals in the axial direction of the rotating roller 3 and are located at both sides of the corresponding hinge seats 5 to clamp the hinge seats 5.

Through adopting above-mentioned technical scheme, ring flange 32 can inject live-rollers 3 along self axial displacement to improve the structural stability of this device, and the reliability when using in practice.

In some embodiments, the hinge seat 5 of the above-described character may adopt a configuration as shown in fig. 4. Referring to fig. 4, the hinge base 5 includes a connecting member 51 and a base 52.

The link 51 is fixedly attached to the swing plate 12.

The side of the connecting element 51 facing away from the swing plate 12 has a first splicing groove 511, and the first splicing groove 511 penetrates through both sides of the connecting element 51 in the axial direction of the rotating roller 3.

The base 52 is detachably connected to the connecting member 51 in a connecting relationship to be described later.

The side of the base 52 facing the swing plate 12 has a second splicing groove 521, and the second splicing groove 521 penetrates through both sides of the base 52 along the axial direction of the rotating roller 3.

When the base 52 is connected to the connector 51, the first splicing groove 511 and the second splicing groove 521 are communicated to form a plug-in part.

By adopting the technical scheme, the base 52 is detached from the connecting piece 51, so that the rotating roller 3 is separated from the swinging plate 12, the rotating roller 3 can be replaced, and the reliability of the device in actual use is improved.

In some embodiments, the above-described feature connection 51 and base 52 may be configured as shown in FIG. 4. Referring to fig. 4, the connecting member 51 is connected to the base 52 by a connecting structure 6, and the connecting structure 6 includes a first wing plate 61, a second wing plate 62 and a positioning bolt 63.

The first wing plate 61 is fixedly connected to the connecting member 51, extends outward in parallel with the plate surface of the swing plate 12, and the first wing plate 61 has a first positioning hole 611 penetrating in a direction perpendicular to the plate surface of the swing plate 12.

The second wing plate 62 is fixedly connected to the base 52, extends outward in parallel with the plate surface of the swing plate 12, and has a second positioning hole 621 penetrating in a direction perpendicular to the plate surface of the swing plate 12 in the second wing plate 62.

The positioning bolt 63 is adapted to be inserted into the first positioning hole 611 and the second positioning hole 621, and a positioning nut 631 is threadedly connected, and the positioning nut 631 is adapted to cooperate with a head of the positioning bolt 63 to clamp the first wing plate 61 and the second wing plate 62.

When the base 52 is connected to the connector 51, the first wing plate 61 and the second wing plate 62 are attached to each other, and the first positioning hole 611 and the second positioning hole 621 are communicated with each other.

Through adopting above-mentioned technical scheme, connect positioning bolt 63 and set nut 631 and can press from both sides tight first pterygoid lamina 61 and second pterygoid lamina 62 to can connect connecting piece 51 and base 52, improved the structural stability of this device.

In some embodiments, the above-described feature loading element 4 may take the configuration shown in fig. 1, 3, 5, and 6. With reference to fig. 1, 3, 5 and 6, the loading element 4 comprises a plurality of supporting arms 41 and a plurality of oscillating arms 42.

A plurality of support arms 41 are provided at intervals in the circumferential direction of the turntable 31 on the side of the turntable 31 facing away from the rotating roller 3, and each support arm 41 is slidable in the radial direction of the turntable 31.

Between each supporting arm 41 and the rotary disc 31, there is a locking structure 7 for connecting the supporting arm 41 and the rotary disc 31 to limit the sliding of the supporting arm 41.

The plurality of swing arms 42 correspond to the plurality of support arms 41 one by one, and each swing arm 42 is pivotally connected to an end of the corresponding support arm 41 facing away from the turntable 31.

As shown in fig. 6, the swing arm 42 has a gate-shaped vertical cross section, and the gate-shaped structure is provided around the extending end of the support arm 41.

Wherein the swing arm 42 has a first swing position and a second swing position;

when the swing arm 42 is in the first swing position, the axial direction of the swing arm 42 is parallel to the axial direction of the support arms 41, and the sleeve body can pass through the swing arm 42 and is sleeved on the peripheries of the plurality of support arms 41;

when the swing arm 42 is in the second swing position, the axial direction of the swing arm 42 is parallel to the radial direction of the turntable 31, and the swing end of the swing arm 42 is arranged towards the outside of the turntable 31, so that the swing arm 42 limits the sleeve body to move along the axial direction of the supporting arm 41;

between the oscillating arm 42 and the supporting arm 41 there is a limit structure 8 for limiting the oscillating arm 42 in the second oscillation position.

By adopting the technical scheme, the combined structure of the supporting arm 41 and the swinging arm 42 can ensure the loading of the sleeve body suitable for winding the steel wire rope, and can limit the position of the sleeve body, thereby ensuring the reliability of the device in practical use.

In some embodiments, the locking feature 7 may be configured as shown in fig. 5. Referring to fig. 5, the locking structure 7 includes a locking flange 71, a screw groove 72, a strip hole 73, and a locking bolt 74.

The locking flange 71 is provided extending radially outward of the support arm 41.

The screw groove 72 is provided on the end surface of the support arm 41 facing the turntable 31, extending in the axial direction of the support arm 41.

The strip-shaped hole 73 is provided on the turntable 31 and extends in the sliding direction of the corresponding support arm 41.

This strip-shaped hole 73 communicates with the threaded groove 72 when the support arm 41 is mounted on the turntable 31.

The inner wall of the strip-shaped hole 73 has a guide groove 731 extending in the sliding direction of the support arm 41 and adapted to allow the locking flange 71 to be inserted.

The locking bolt 74 is adapted to be inserted into the elongated hole 73 and communicate with the threaded groove 72 to cooperate with the locking flange 71 to clamp the support arm 41 and the turntable 31.

By adopting the technical scheme, the locking bolt 74 can be screwed to realize the threaded connection between the locking bolt 74 and the threaded groove 72, and then the head parts of the locking flange 71 and the locking bolt 74 clamp the supporting arm 41 and the turntable 31, so that the movement of the supporting arm 41 relative to the turntable 31 is limited, and the structural stability of the device is improved.

In some embodiments, the above-described feature disk 31 may be configured as shown in FIG. 1. Referring to fig. 1, the turntable 31 has a plurality of through holes 311 corresponding to the plurality of strip-shaped holes 73 one by one, the plurality of through holes 311 are arranged at intervals along the circumferential direction of the turntable 31, and the through holes 311 are located between two adjacent strip-shaped holes 73.

Through adopting above-mentioned technical scheme, insert the hand in through-hole 311 to holding carousel 31, so that drive carousel 31 rotates, improved efficiency and stability of this device when the in-service use.

In some embodiments, the above-described feature limiting structure 8 may be configured as shown in fig. 6. Referring to fig. 6, the stopper structure 8 includes a stopper nut 81, a slot 82, and a stopper bolt 83.

The limit nut 81 is fixedly attached to the swing arm 42 and has a threaded bore disposed along the length of the swing arm 42.

The insertion groove 82 is provided on the outer peripheral wall of the support arm 41.

The threaded bore is in coaxial communication with the socket 82 when the swing arm 42 is in the second swing position.

The stopper bolt 83 is adapted to be threadedly coupled with the aforementioned threaded bore cavity, and can be screwed into and inserted into the insertion slot 82 along the axial direction of the threaded bore cavity. When the limit bolt 83 is inserted into the insertion slot 82, the inserted portion thereof can effectively limit the swing arm 42 from swinging.

Through adopting above-mentioned technical scheme, rotate limit bolt 83 and can effectively utilize limit bolt 83 and limit nut 81's threaded connection relation and take place to precession to can be in the slot 82 of accurate inserting when swing arm 42 is in the second swing position, take place the swing with injecing swing arm 42, improved the structural stability of this device, and the reliability in the in-service use process.

In some embodiments, the other end of the rotating roller 3 of the above-described feature may adopt a structure as shown in fig. 1. Referring to fig. 1, the other end of the rotating roller 3 protrudes out of the swing plate 12, and the protruding end of the rotating roller 3 has a handle 33 provided to extend outward in a radial direction thereof.

This handle 33 includes a first lever portion extending outward in the radial direction of the rotating roller 3, and a second lever portion fixedly attached to an extending end of the first lever portion and extending outward away from the rotating roller 3; when the device is used, the rubber sleeve is sleeved on the second rod part, and the rubber sleeve is held, so that the first rod part sleeve can be effectively driven to stably rotate along the circumferential direction of the rotating roller 3.

Through adopting above-mentioned technical scheme, can more effectually rotate this live-rollers 3 through this handle 33 for the user of being convenient for have an effect, improved the efficiency of this device when in-service use.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. Wire rope rolling frock, its characterized in that includes:

the base adopts a plate body with a rectangular cross section, and the upper surface of the base is provided with a vertical frame extending from bottom to top;

2. The steel wire rope winding tool according to claim 1, wherein the swing driving assembly comprises:

the two door-shaped frames are arranged on the plate surface of the swinging plate facing the base at intervals along the axial direction of the rotating roller; the length direction of the door-shaped frame is arranged along the direction facing the vertical frame; the gate frame is provided with a gate opening, and the direction of the gate opening is parallel to the axial direction of the rotating roller;

the sliding rod is arranged on the plate surface of the swinging plate facing the base in a sliding manner along the length direction of the door-shaped frame, and two ends of the sliding rod are respectively inserted into the two door-shaped openings; and

3. The steel wire rope winding tool according to claim 1, wherein two hinge seats are arranged on the side surface of the swing plate, which faces away from the base, at intervals along the axial direction of the rotating roller, and each hinge seat is provided with an insertion part for inserting the rotating roller;

4. The steel wire rope winding tool according to claim 3, wherein the hinge seat comprises:

the connecting piece is fixedly connected to the swinging plate; the side surface of the connecting piece, which is back to the swinging plate, is provided with a first splicing groove, and the first splicing groove penetrates through two sides of the connecting piece along the axial direction of the rotating roller; and

5. The steel wire rope winding tool according to claim 4, wherein the connecting piece is connected with the base through a connecting structure, and the connecting structure comprises:

the second wing plate is fixedly connected to the base and extends outwards along the plate surface parallel to the swinging plate; the second wing plate is provided with a second positioning hole which is penetrated along the direction vertical to the plate surface of the swinging plate; and

6. The steel wire rope winding tool according to claim 1, wherein the loading element comprises:

the swinging arms correspond to the supporting arms one by one, and each swinging arm is connected to one end, back to the turntable, of the corresponding supporting arm in a swinging mode;

wherein the swing arm has a first swing position and a second swing position;

7. The steel wire rope winding tool according to claim 6, wherein the locking structure comprises:

8. The steel wire rope winding tool according to claim 7, wherein the turntable is provided with a plurality of through holes corresponding to the strip-shaped holes one to one, the through holes are arranged at intervals along the circumferential direction of the turntable, and the through holes are located between every two adjacent strip-shaped holes.

9. The steel wire rope winding tool according to claim 6, wherein the limiting structure comprises:

wherein, when the swing arm is in the second swing position, the threaded bore is in coaxial communication with the slot.

10. The steel wire rope winding tool according to claim 1, wherein the other end of the rotating roller extends out of the swinging plate, and the extending end of the rotating roller is provided with a handle extending outwards along the radial direction of the rotating roller.