CN116395496B - Steel wire rope winding device - Google Patents

Abstract

The invention discloses a steel wire rope winding device, which relates to the technical field of steel wire rope winding, and comprises winding assemblies used for winding a plurality of strands of steel wires, wherein a plurality of groups of feeding assemblies used for placing wire drums are arranged on the winding assemblies, the wire drums are detachably arranged in the feeding assemblies, and the feeding assemblies ensure that the wire drums are always parallel to the ground when being out of the wire, and the invention also comprises a movable material changing assembly.

Description

Steel wire rope winding device

Technical Field

The invention relates to the technical field of steel wire rope winding, in particular to a steel wire rope winding device.

Background

In many engineering applications, such as lifting, towing, transportation, etc., wire ropes are widely used. However, in some cases a stronger load carrying capacity or higher wear resistance is required, where a single wire rope may not be satisfactory. To solve this problem, a thicker wire rope may be manufactured by winding a plurality of wire ropes together. However, the conventional winding method often requires manual operation, is time-consuming and error-prone, is inefficient in performing coil replacement, increases a risk factor by manual replacement, cannot ensure a rotational speed of a coil when a wire rope on the coil is pulled out and inserted into a wire twisting machine, and easily causes winding of the wire during feeding.

The Chinese patent publication No. CN105883479B discloses a wire rope winding device and a winding method, wherein the wire rope winding device comprises two oppositely arranged frames and winding layers for winding the wire rope, the frames are connected through a plurality of winding layers with the same central shaft, the service life of the wire rope can be prolonged, the cleanliness of an operation site is improved, but when the device winds the wire rope, the wire rope reel cannot be automatically replaced, and the wire rope cannot be pulled out and fed into a rope twisting machine.

Disclosure of Invention

In view of the above problems, the present invention provides a wire rope winding device.

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a wire rope wind, includes winding subassembly and reloading subassembly, is provided with multiunit feeding subassembly on the winding subassembly, winding subassembly include rolling disc two, rolling disc three and rolling disc four, rolling disc two and rolling disc three on be provided with multiunit gear one, feeding subassembly including multiunit rotation install the section of thick bamboo support on rolling disc two, rolling disc three and rolling disc four, the axis of rotation of section of thick bamboo support on be provided with gear two, gear two and gear one mesh, gear one guarantee the section of thick bamboo support with ground level all the time, the section of thick bamboo support on the detachable be provided with a section of thick bamboo, a section of thick bamboo on be provided with multiunit spacing hole, a section of thick bamboo inside be provided with two sets of movable columns through the spline shaft, the reloading subassembly including moving the base, moving base on be provided with disassembly mechanism with a section of thick bamboo follow section of thick bamboo support and pull down, disassembly mechanism including the mounting panel on be provided with the spacing post of inserting in spacing hole, carry out extruded mounting panel to movable column.

Further, the winding assembly also comprises a plurality of groups of bases, the bases are installed below the ground, driving wheels are rotatably arranged on the bases, and the driving wheels drive the second rotating disc, the third rotating disc and the fourth rotating disc to rotate.

Further, a plurality of groups of wire wheels I are arranged on the rotating disc II, the wire wheels I are used for bearing steel wires, a wire outlet column II is arranged between the rotating disc II and the rotating disc IV, and wire cylinder supports arranged on the rotating disc III and the rotating disc IV transmit the steel wires through the wire outlet column II.

Further, the spool support both sides all rotate and be provided with a set of mounting disc, the mounting disc on slide and be provided with the gripping head, gripping head and mounting disc between be provided with first spring, the gripping head carry out the centre gripping to the movable column, the mounting disc on be provided with first electromagnet, the mounting disc control through a pair of gripping head of electromagnet, the gripping head make by magnetic material.

Further, two sides of the wire cylinder support are provided with movable gaps, the movable columns intermittently slide in the movable gaps, and a second spring is arranged between the movable columns and the wire cylinder.

Further, disassembly body including installing the motor one on the removal base, the output shaft of motor one on be provided with mounting panel and fixed disk, the output shaft of mounting panel and motor one pass through the integral key shaft and be connected, the fixed disk on be provided with the pneumatic cylinder, the expansion end and the mounting panel of pneumatic cylinder are connected, the mounting panel on slide and be provided with limiting plate and sliding block one, the spacing post install on the limiting plate, push pedal slidable mounting on sliding block one.

Further, the mounting plate slide and be provided with two sets of sliding blocks II, sliding block II on rotate and be provided with wire wheel II, the mounting plate lower extreme rotate and be provided with the mounting block, the mounting block on rotate and be provided with the follow driving wheel.

Further, the second electromagnet block is arranged on the mounting block, and the mounting block is fixed with the mounting plate through the second electromagnet block.

Compared with the prior art, the invention has the beneficial effects that: (1) The winding assembly provided by the invention can drive the steel wire to wind, and the steel wire can ensure that the wire cylinder is always parallel to the ground during winding so as to avoid twisting, crossing or excessive stretching, thereby reducing the service life of the steel wire rope; (2) The material changing assembly provided by the invention automatically changes the wire barrel, automatically pulls out the steel wire to control the rotation number of the wire barrel, avoids long-time shutdown in the production process, improves the production continuity, avoids winding of the steel wire during feeding, reduces the manual participation degree, and reduces the potential safety risk.

Drawings

FIG. 1 is a top view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the overall structure of the present invention.

FIG. 3 is a schematic view of a winding assembly according to the present invention.

Fig. 4 is a schematic view showing a partial structure of the winding assembly according to the present invention.

Fig. 5 is a cross-sectional view of the winding assembly structure of the present invention.

FIG. 6 is a schematic view of the feed assembly of the present invention.

Fig. 7 is a sectional view of the structure of the bobbin of the present invention.

Fig. 8 is a schematic view of a structure of a refueling assembly according to the present invention.

Fig. 9 is a cross-sectional view of the construction of the refuelling assembly of the present invention.

FIG. 10 is a schematic diagram of the mounting positions of the second pulley and the driven pulley according to the present invention.

Reference numerals: 1-winding an assembly; 2-a feed assembly; 3-a material changing component; 101-a first outlet column; 102-rotating a first disc; 103-rotating a second disc; 104-rotating a third disc; 105-rotating disc four; 106, a first wire wheel; 107-a second outlet column; 108-a base; 109-a drive wheel; 110-gear one; 201-a wire barrel support; 202-a wire barrel; 203-gear two; 204-mounting a disc; 205—a clamping head; 206-spring one; 207-a movable column; 208-active notch; 209-spring two; 210-limiting holes; 301-moving a base; 302-a mounting plate; 303-balancing weight; 304-motor one; 305-a fixed disk; 306-a hydraulic cylinder; 307-motor two; 308-lead screw I; 309-limiting plate; 310-motor three; 311-lifting column; 312-sliding block one; 313-lead screw II; 314-pushing plate; 315-electric cylinder; 316-line wheel II; 317-limit columns; 318-slider two; 319-spring three; 320-driven wheel; 321-mounting blocks.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings. Referring to fig. 1 to 10, a steel wire rope winding device comprises a winding assembly 1 for winding a plurality of steel wires, wherein a plurality of groups of feeding assemblies 2 for placing wire barrels 202 are arranged on the winding assembly 1, the wire barrels 202 are detachably arranged on the feeding assemblies 2, and the steel wire rope winding device further comprises a material changing assembly 3 for automatically changing the wire barrels 202 in the plurality of groups of feeding assemblies 2 and driving the steel wires in the wire barrels 202 to move.

The winding assembly 1 comprises a base 108 installed below the ground, a winding motor is arranged on the base 108, a driving wheel 109 is arranged on an output shaft of the winding motor, the winding assembly 1 further comprises a first rotating disc 102, a second rotating disc 103, a third rotating disc 104 and a fourth rotating disc 105, the first rotating disc 102, the second rotating disc 103, the third rotating disc 104 and the fourth rotating disc 105 are connected through a first wire outlet column 101, the first rotating disc 102, the second rotating disc 103, the third rotating disc 104 and the fourth rotating disc 105 are driven to rotate when the driving wheel 109 rotates, a plurality of groups of first wire wheels 106 are arranged on the second rotating disc 103, a plurality of groups of second wire outlet columns 107 are arranged between the second rotating disc 103 and the third rotating disc 104, the second wire outlet columns 107 and the first wire outlet columns 101 are both used for conveying steel wires, the first wire wheels 106 are used for bearing the steel wires, a plurality of groups of adjusting motors are arranged on the second rotating disc 103 and the third rotating disc 104, and a first gear 110 is arranged on an output shaft of the adjusting motor.

The feeding component 2 comprises a plurality of groups of wire barrel supports 201 which are rotatably arranged on a second rotating disc 103, a third rotating disc 104 and a fourth rotating disc 105, a second gear 203 is arranged on the rotating shaft of the wire barrel supports 201, the second gear 203 is meshed with the first gear 110, two groups of mounting discs 204 are rotatably arranged on two sides of the second gear 203, two groups of clamping heads 205 are slidably arranged on the mounting discs 204, a first spring 206 is arranged between the clamping heads 205 and the mounting discs 204, the clamping heads 205 are made of magnetic materials, a first electromagnet block is arranged in the mounting discs 204, the mounting discs 204 drive the two groups of clamping heads 205 to approach or separate from each other through the first electromagnet block, a wire barrel 202 is detachably arranged on the wire barrel supports 201, two groups of limiting holes 210 are arranged on two sides of the wire barrel supports 202, the wire barrel 202 is provided with two groups of movable columns 207, the movable columns 207 are connected with the wire barrel 202 through spline shafts, the movable columns 207 are clamped when the two groups of clamping heads 205 approach each other, the movable columns 207 are driven to rotate when the wire barrel 202 rotates, and the movable columns 207 are driven to rotate through the two groups of clamping heads 205 to drive the wire barrel supports 201 to rotate.

The material changing assembly 3 comprises a movable base 301, a balancing weight 303 and a first motor 304 are arranged on the movable base 301, a fixed disc 305 and a mounting plate 302 are arranged on an output shaft of the first motor 304, the mounting plate 302 is connected with an output shaft of the first motor 304 through a spline shaft, a hydraulic cylinder 306 is arranged on the fixed disc 305, a movable end of the hydraulic cylinder 306 is connected with the mounting plate 302, the hydraulic cylinder 306 pushes the mounting plate 302 to slide on the output shaft of the first motor 304, a second motor 307 is arranged at the upper end of the mounting plate 302, the second motor 307 is a double-shaft motor, a first screw 308 is arranged on an output shaft of the second motor 307, a limiting plate 309 is arranged on the mounting plate 302 in a sliding manner, a limiting column 317 is arranged on the limiting plate 309, the limiting plate 309 is connected with the first screw 308 through threads, when the second motor 307 is started, the first screw 308 drives the first screw 308 to move close to or far away from the first screw 309, a third motor 310 and a lifting column 311 are arranged at two ends of the mounting plate 302, the lifting column 311 is provided with a first sliding block 312 in a sliding manner, the output shaft of the third motor 310 is provided with the lifting column 311, the lifting column 311 is connected with the first sliding block 312 through threads, the first sliding block 312 is provided with an electric cylinder 315, the movable end of the electric cylinder 315 is provided with a push plate 314, the push plate 314 is connected with the first sliding block 312 in a sliding manner, when the third motor 310 is started, the third motor 310 drives a second lead screw 313 to rotate, the second lead screw 313 drives the first sliding block 312 to slide on the lifting column 311, the lower end of the mounting plate 302 is provided with a second sliding block 318 in a sliding manner, a third spring 319 is arranged between the second sliding block 318 and the mounting plate 302, a second group of wire wheels 316 is arranged between the second two groups of sliding blocks 318, a feeding motor is arranged in the second group of sliding blocks 318, the output shaft of the feeding motor is connected with the second wire wheels 316, the lower end of the mounting plate 302 is provided with a limiting motor, and the output shaft of the limiting motor is provided with a mounting block 321, the driven wheel 320 is rotatably arranged on the mounting block 321, the second electromagnet block is arranged on the mounting block 321, the mounting block 321 is fixed with the mounting plate 302 through the second electromagnet block, and the driven wheel 320 is attached to the second wire wheel 316.

Working principle: during operation, the wire barrel support 201 is installed on the second rotating disc 103, the third rotating disc 104 and the fourth rotating disc 105, steel wires on the wire barrel 202 pass through the third rotating disc 104, the second wire outlet column 107 and the second rotating disc 103 to be lapped on the first wire barrel 106, then pass through a round hole on the first rotating disc 102 to enter the extruder, then a winding motor is started, the winding motor drives the driving wheel 109 to rotate, the driving wheel 109 drives the first wire outlet column 101, the first rotating disc 102, the second rotating disc 103, the third rotating disc 104 and the fourth rotating disc 105 to rotate, winding of the steel wire rope is completed, when the second rotating disc 103 and the third rotating disc 104 rotate, the wire barrel support 201 is required to be kept to be always parallel to the ground, an adjusting motor is started, the adjusting motor drives the first gear 110 to rotate, the first gear 110 drives the second gear 203 to rotate, the second gear 203 drives the wire barrel support 201 to rotate, and the wire barrel support 201 drives the wire barrel 202 to be always parallel to the ground.

When a group of bobbins 202 on the bobbin bracket 201 needs to be detached, the group of bobbins bracket 201 needs to be detached is parallel to the ground and is positioned on the same side with the reloading assembly 3, the moving base 301 moves the mounting plate 302 to be close to the bobbin 202, the moving base 301 stops moving when the mounting plate 302 is above the bobbin 202, the first motor 304 is started, the first motor 304 drives the mounting plate 302 to rotate, fine adjustment is carried out on the position of the mounting plate 302, the alignment of the mounting plate 302 and the bobbin 202 is ensured, then the hydraulic cylinder 306 is started, the hydraulic cylinder 306 drives the mounting plate 302 to move, after the mounting plate 302 drives the limit post 317 to be aligned with the limit hole 210 on the bobbin 202, the hydraulic cylinder 306 stops moving, then the second motor 307 is started, the second motor 307 drives the first screw 308 to rotate, the first screw 308 drives the two groups of limit plates 309 to be close to each other, at the moment, the limit post 317 is driven by the limit post 317 to be inserted into the limit hole 210 on the bobbin 202, the third motor 310 is started, the third motor 310 drives the second screw 313 to rotate, the second screw 313 drives the first sliding block 312 to slide on the lifting column 311, the third motor 310 is stopped when the first sliding block 312 drives the push plate 314 to align with the movable column 207, then the electric cylinder 315 is started, the electric cylinder 315 drives the two groups of push plates 314 to mutually approach, the two groups of push plates 314 push the movable column 207, at the moment, the first electromagnet block on the mounting plate 204 is started, the mounting plate 204 releases the fixation of the clamping head 205, the clamping head 205 releases the clamping of the movable column 207, the movable column 207 retracts into the wire barrel 202, the fixation between the wire barrel 202 and the wire barrel bracket 201 is released, the hydraulic cylinder 306 is started, the hydraulic cylinder 306 drives the mounting plate 302 to ascend, the third motor 310 is started, the first sliding block 312 is descended, the mounting plate 302 drives the limiting plate 309 to ascend, the limiting plate 309 drives the wire barrel 202 to ascend, and the first sliding block 312 descends, at this time, the position of the push plate 314 is unchanged, the mounting plate 302 drives the wire barrel 202 to rise, when the wire barrel 202 drives the movable column 207 to rise to the position of the movable gap 208, the movable gap 208 extrudes the movable column 207 at this time, the push plate 314 does not need to extrude the movable column 207, the push plate 314 resets and synchronously resets along with the mounting plate 302, and at this time, the removal of the wire barrel 202 is completed.

When the bobbin 202 is required to be installed, the bobbin 202 is manually installed on the limit column 317, the working space is large due to the external installation, the operation is simple, if the bobbin 202 is directly installed on the bobbin bracket 201, the working space is narrow, the process is complex, danger is easy to be caused, after the bobbin 202 is installed on the limit column 317, the steel wire on the bobbin 202 is plugged between the second wire wheel 316 and the driven wheel 320, then the installation plate 302 drives the bobbin 202 to move, firstly, the movable column 207 is extruded through the push plate 314, when the push plate 314 is attached to the upper end of the movable gap 208, the sliding block I312 moves upwards under the control of the motor III 310, the installation plate 302 drives the bobbin 202 to move downwards under the control of the hydraulic cylinder 306, at the moment, the sliding block I312 drives the push plate 314 to be unchanged at the position on the movable gap 208, but the bobbin 202 drives the movable column 207 to slide into the movable gap 208, at this time, the movable notch 208 extrudes the movable column 207, when the movable column 207 reaches the installation position, the movable column 207 is reset by the deformation restoring force of the second spring 209, two groups of movable columns 207 are inserted into the installation plate 204, the electromagnet blocks on the installation plate 204 are started, the installation plate 204 drives the two groups of clamping heads 205 to be close to each other so as to clamp the movable column 207, at this time, the fixation of the wire barrel 202 is completed, then the feeding motor is started, the feeding motor drives the wire wheel II 316 to rotate, the wire wheel II 316 drives the driven wheel 320 to rotate, the wire wheel II 316 and the driven wheel 320 pull the wire rope, at this time, the wire barrel 202 rotates on the wire barrel bracket 201, the pulled wire rope is wound through the rotating plates manually, then the electromagnet blocks II on the installation block 321 are powered off, the fixation of the installation block 321 and the installation plate 302 is released, meanwhile, the limiting motor is started, the installation block 321 and the driven wheel 320 are driven by the limiting motor, the steel wire falls off from the driven wheel 320 and the second wire wheel 316, so that the steel wire is pulled, and the problem that the rotation speed and the number of turns of the wire barrel 202 cannot be controlled due to the fact that the force is negligent and the force is negligent during manual pulling is avoided, and the steel wire rope is easy to wind is solved.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (5)

1. The utility model provides a wire rope wind, includes winding subassembly (1) and reload subassembly (3), is provided with multiunit feeding subassembly (2), its characterized in that on winding subassembly (1): the winding component (1) comprises a rotating disc two (103), a rotating disc three (104) and a rotating disc four (105), a plurality of groups of gears one (110) are arranged on the rotating disc two (103) and the rotating disc three (104), the feeding component (2) comprises a plurality of groups of wire barrel supports (201) which are rotatably arranged on the rotating disc two (103), the rotating disc three (104) and the rotating disc four (105), a gear two (203) is arranged on a rotating shaft of the wire barrel supports (201), the gear two (203) is meshed with the gear one (110), the gear one (110) ensures that the wire barrel supports (201) are always level with the ground, a plurality of groups of limit holes (210) are formed in the wire barrel supports (201), two groups of movable posts (207) are arranged in the wire barrel supports (202) through spline shafts, the wire barrel supports (301) comprise a moving base (301), a dismounting mechanism is arranged on the moving base (301), the wire barrel supports (201) are always level with the ground, the wire barrel supports (201) are detachably provided with wire barrel supports (202) and the limit holes (317) are formed in the mounting plate (302), a push plate (314) for pressing the movable column (207);

a group of mounting plates (204) are rotatably arranged on two sides of the bobbin bracket (201), clamping heads (205) are slidably arranged on the mounting plates (204), a first spring (206) is arranged between each clamping head (205) and each mounting plate (204), each clamping head (205) clamps the corresponding movable column (207), an electromagnet block I is arranged on each mounting plate (204), each mounting plate (204) is controlled by the corresponding electromagnet block I to control the corresponding clamping head (205), and each clamping head (205) is made of a magnetic material;

the two sides of the wire barrel support (201) are provided with movable gaps (208), the movable posts (207) intermittently slide in the movable gaps (208), and a second spring (209) is arranged between the movable posts (207) and the wire barrel (202);

the dismounting mechanism comprises a first motor (304) arranged on a movable base (301), a mounting plate (302) and a fixed disc (305) are arranged on an output shaft of the first motor (304), the mounting plate (302) is connected with an output shaft of the first motor (304) through a spline shaft, a hydraulic cylinder (306) is arranged on the fixed disc (305), a movable end of the hydraulic cylinder (306) is connected with the mounting plate (302), a limiting plate (309) and a first sliding block (312) are arranged on the mounting plate (302) in a sliding mode, a limiting column (317) is arranged on the limiting plate (309), and a push plate (314) is arranged on the first sliding block (312) in a sliding mode.

2. A wire rope winding apparatus as claimed in claim 1, wherein: the winding assembly (1) further comprises a plurality of groups of bases (108), the bases (108) are installed below the ground, driving wheels (109) are rotatably arranged on the bases (108), and the driving wheels (109) drive the second rotating disc (103), the third rotating disc (104) and the fourth rotating disc (105) to rotate.

3. A wire rope winding apparatus as claimed in claim 1, wherein: the wire winding device is characterized in that a plurality of groups of wire winding wheels I (106) are arranged on the rotating disc II (103), the wire winding wheels I (106) are used for bearing steel wires, a wire outlet column II (107) is arranged between the rotating disc II (103) and the rotating disc IV (105), and wire winding drum supports (201) arranged on the rotating disc III (104) and the rotating disc IV (105) transmit the steel wires through the wire outlet column II (107).

4. A wire rope winding apparatus as claimed in claim 1, wherein: the wire wheel is characterized in that two groups of second sliding blocks (318) are arranged on the mounting plate (302) in a sliding mode, a wire wheel second (316) is arranged on the second sliding blocks (318) in a rotating mode, a mounting block (321) is arranged at the lower end of the mounting plate (302) in a rotating mode, and a driven wheel (320) is arranged on the mounting block (321) in a rotating mode.

5. A wire rope winding apparatus as claimed in claim 4, wherein: the mounting block (321) is provided with a second electromagnet block, and the mounting block (321) is fixed with the mounting plate (302) through the second electromagnet block.