CN116767968A - Regular winding method and winding machine for aramid fiber ropes - Google Patents

Abstract

The invention discloses a winding machine for regularly winding an aramid fiber rope, which comprises a base, wherein an electric telescopic rod is fixed at the top of a supporting table, a push plate is fixed at one end of the electric telescopic rod, and a sleeve is fixed at one side of the push plate. This rolling machine of aramid fiber rope law rolling, place the winding section of thick bamboo after the layer board can rise the winding section of thick bamboo, afterwards the accessible hand crank rotatory lead screw drives the slider and slides right, conveniently overlap the outside of bull stick with the winding section of thick bamboo is automatic, after 180 degrees rotatory rotating plates, the pivot block is connected to in the cutting ferrule, the push pedal moves left, thereby push away movable rod and move left, the extrusion piece is extruded and is supported the supporting piece, support the supporting piece and finally support the outside tightly at the winding section of thick bamboo, conveniently lock the winding section of thick bamboo, afterwards the pivot can rotate along with the cutting ferrule together with the winding section of thick bamboo, make things convenient for automatic winding aramid fiber rope, can put another bull stick with next winding section of thick bamboo cover in the winding aramid fiber rope for whole rolling operation is more continuous high-efficient.

Description

Regular winding method and winding machine for aramid fiber ropes

Technical Field

The invention relates to the technical field of aramid fiber ropes, in particular to a regular winding method and a winding machine for an aramid fiber rope.

Background

The aramid fiber has extremely high strength, the weight ratio tensile strength is 6 times of that of the steel wire, the glass fiber is 3 times of that of the high-strength nylon industrial yarn, and the weight ratio tensile strength is 2 times of that of the high-strength nylon industrial yarn; the tensile modulus is 3 times of that of the steel wire, 2 times of that of the glass fiber and 10 times of that of the high-strength nylon industrial wire; the continuous use temperature range of the aramid fiber is extremely wide, the aramid fiber can normally run for a long time within the range of-196 ℃ to 204 ℃, the shrinkage rate at 150 ℃ is 0, the aramid fiber rope is not decomposed or melted at the high temperature of 560 ℃, the aramid fiber rope products comprise round ropes, fang Sheng, flat ropes and the like, and a winding machine can be used for winding the aramid fiber rope when the aramid fiber rope is produced and transported.

The existing winding machine generally needs to manually dock the winding drum with the driving piece, the driving piece drives the winding drum to rotate, so that the automatic winding effect is achieved, but the whole docking operation is not high in automation degree and not regular and efficient, the winding drum and the driving piece still need to be manually detached after the winding operation is finished, the winding drum and the driving piece are fixed together after the docking operation is finished, the whole docking operation is fixed, the detaching operation is time-consuming and labor-consuming, the working efficiency is affected, and the existing equipment needs to be improved according to the problems.

Disclosure of Invention

The invention aims to provide a regular winding method and a winding machine for an aramid fiber rope, which are used for solving the problems that the prior winding machine provided in the background art generally needs to manually butt-joint a winding drum with a driving piece, the driving piece drives the winding drum to rotate so as to achieve the effect of automatic winding, but the whole butt-joint operation is not high in automation degree and not regular and efficient, the winding drum and the driving piece also need to be manually separated after the winding operation is finished, the winding drum and the rotating piece are also fixed together after the butt-joint operation is finished, and the whole butt-joint fixing and the separation operation are time-consuming and labor-consuming, so that the working efficiency is influenced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an aramid fiber rope law rolling method and rolling machine, includes the base, the bottom of base is fixed with the auto-lock gyro wheel, one side sliding connection of up end has the slider, the upside of slider is connected with the layer board through electric telescopic column, the opposite side of base up end is fixed with the brace table, it has the revolving plate to run through on the brace table, the centre department of base up end is fixed with the pillar, the pillar runs through the revolving plate, the top of pillar is fixed with the second motor, the output of second motor is connected with the cutting ferrule, the top of brace table is fixed with the extrusion frame, the bilateral symmetry of revolving plate up end is fixed with the support, rotate on the support and be connected with the pivot, one of them the pivot block is connected in the cutting ferrule, two all be fixed with rolling mechanism in the pivot, the top of brace table is fixed with electric telescopic handle, the one end of electric telescopic handle is fixed with the push pedal, one side of push pedal is fixed with the sleeve.

Preferably, a channel is formed in the support, a first compression spring is fixed at the bottom of the channel, a bolt is fixed at the top of the first compression spring, and one of the bolts is attached to the inner top of the extrusion frame.

Through the technical scheme, the rotating shaft can be locked when the bolt is clamped into the clamping groove, and the rotating shaft can be unlocked after the bolt leaves the clamping groove.

Preferably, the clamping grooves are formed in the outer sides of the rotating shafts, four clamping grooves are formed in each rotating shaft, and the four clamping grooves are circumferentially and uniformly distributed in the rotating shafts.

Through above-mentioned technical scheme, when the bolt slowly leaves the extrusion frame, the bolt can automatic card go into corresponding draw-in groove, conveniently locks the pivot.

Preferably, the winding mechanism comprises a rotating rod, the rotating rod is fixed at the outer end of the rotating shaft, a through hole is formed in the rotating rod, the outer end of the rotating rod penetrates through a movable rod, an extrusion block is fixed at the inner end of the movable rod, and the extrusion block stretches into the through hole.

Through the technical scheme, when the movable rod is pushed by the push plate to move leftwards, the extrusion block can extrude the supporting block.

Preferably, the through hole is internally and movably connected with a supporting block, the supporting block is connected with the rotating rod through a second compression spring, a limiting column is fixedly arranged in the through hole and penetrates through the supporting block, and the second compression spring is wrapped on the outer side of the limiting column.

Through the technical scheme, after the push plate is removed, the supporting block can be automatically reset.

Preferably, the sleeve is horizontally arranged with the movable rod.

Through above-mentioned technical scheme, the sleeve can be along with the push pedal removes together, can support the bull stick when the sleeve cover is in the outside of bull stick.

Preferably, the base is rotatably connected with a screw rod, the screw rod penetrates through one side of the base and is connected with the handle, and the outer side of the screw rod is in threaded connection with a sliding block.

Through the technical scheme, the screw rod rotates to drive the sliding block to slide rightwards.

Preferably, the middle of the upper end surface of the base is fixedly provided with a first motor, the top of the first motor is connected with a gear, the outer side of the rotating plate is fixedly provided with a gear ring, and the gear ring is in meshed connection with the gear.

Through above-mentioned technical scheme, the gear rotation can drive the rotatory board of commentaries on classics.

A regular winding method of an aramid fiber rope comprises the following steps:

s1, after a winding drum is horizontally placed on a supporting plate, the supporting plate rises until the winding drum corresponds to a left rotating rod, then the supporting plate moves rightwards, the winding drum is sleeved on the outer side of the left rotating rod, then a gear rotates, and a rotating plate is driven to horizontally rotate 180 degrees, so that the winding drum is rotated to the right, and a corresponding bolt moves downwards and leaves a clamping groove under the extrusion action of an extrusion frame;

s2, the sleeve moves leftwards along with the push plate, the push plate pushes the corresponding movable rod to move leftwards, the sleeve is finally sleeved and supported on the outer side of the rotating rod, the extrusion block moves leftwards along with the corresponding movable rod and extrudes the supporting block, and the supporting block is finally abutted against the inner wall of the winding drum, so that the winding drum is fixed;

s3, the second motor drives the clamping sleeve to rotate, so that the rotating rod and the winding cylinder are driven to integrally rotate, and the aramid fiber rope is automatically wound.

1. According to the regular winding method and winding machine for the aramid fiber ropes, through mutual matching of the shaking hands, the lead screws, the sliding blocks, the supporting plates, the rotating plates, the clamping sleeves, the rotating shafts, the rotating rods, the movable rods, the extrusion blocks, the supporting blocks and the pushing plates, the purposes of automatic feeding, supporting, fixing and continuous winding can be achieved, the winding drums can be lifted after being placed on the supporting plates, the sliding blocks can be driven to slide rightwards through the shaking hands to rotate the lead screws, the winding drums can be conveniently and automatically sleeved on the outer sides of the rotating rods, the rotating shafts are connected into the clamping sleeves in a clamping sleeve in a clamping mode after the rotating plates are rotated 180 degrees, the pushing plates move leftwards, the movable rods are pushed to move leftwards, the extrusion blocks are extruded to open the supporting blocks, the supporting blocks are finally supported against the outer sides of the winding drums, the winding drums can be conveniently and locked, the rotating shafts and the winding drums can rotate together with the clamping sleeves, the next winding drum can be conveniently and automatically wound on another rotating rod, and the next winding drum can be sleeved on another rotating rod when the aramid fiber ropes are wound, and the whole winding operation is more continuous and efficient.

2. According to the regular winding method and winding machine for the aramid fiber ropes, the purpose of self-locking can be achieved through the mutual matching of the rotating plate, the extrusion frame, the bolts and the clamping grooves, the bolts are connected in the clamping grooves in a clamping mode at first, the winding cylinders are in a locking state, after the rotating plate rotates 180 degrees, the bolts can move downwards and leave the clamping grooves under the extrusion action of the extrusion frame, the winding cylinders are conveniently unlocked, and after the bolts leave the extrusion frame slowly, the bolts can be clamped in the clamping grooves again to facilitate the winding cylinders to be locked again.

3. According to the regular winding method and winding machine for the aramid fiber ropes, the purpose of automatic resetting and unlocking can be achieved through the mutual matching of the movable rods, the extrusion blocks, the supporting blocks and the pushing plates, and the extrusion blocks and the movable rods are automatically reset after the pushing plates move rightwards and cancel the thrust to the movable rods.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure of the present invention;

FIG. 2 is a schematic diagram of the front view of the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1A according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 1B according to the present invention;

FIG. 5 is a schematic view of the connection structure of the rotating rod, the through hole, the extrusion block and the supporting block of the invention;

FIG. 6 is a schematic view of the structure of the extrusion frame of the present invention;

FIG. 7 is a schematic diagram of a connection structure between a spindle and a slot according to the present invention;

FIG. 8 is a schematic view of the connection structure of the rotating plate, gear ring, strut, rotating rod, through hole, movable rod and supporting block of the present invention.

In the figure: 1. a base; 2. self-locking idler wheels; 3. hand shaking; 4. a screw rod; 5. a slide block; 6. an electric telescopic column; 7. a supporting plate; 8. a support table; 9. a rotating plate; 10. a gear ring; 11. a first motor; 12. a gear; 13. a support post; 14. a second motor; 15. a cutting sleeve; 16. an extrusion frame; 17. a bracket; 18. a rotating shaft; 19. a channel; 20. a first compression spring; 21. a plug pin; 22. a clamping groove; 23. a winding mechanism; 2301. a rotating rod; 2302. a through hole; 2303. a movable rod; 2304. extruding a block; 2305. a supporting block; 2306. a second compression spring; 2307. a limit column; 24. an electric telescopic rod; 25. a push plate; 26. a sleeve.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a rolling machine of aramid fiber rope law rolling, as shown in fig. 1, including base 1, the bottom of base 1 is fixed with auto-lock gyro wheel 2, one side sliding connection of up end has slider 5, rotate on base 1 and be connected with lead screw 4, and lead screw 4 runs through one side of base 1 and is connected with rocking handle 3, the outside threaded connection of lead screw 4 has slider 5, place a rolling section of thick bamboo on layer board 7 and can hold rocking handle 3 rotatory lead screw 4 after adjusting layer board 7's height, slider 5 can slide rightwards under the spacing effect of base 1 and lead screw 4 this moment, the outside of left bull stick 2301 is put to the smooth cover of a rolling section of thick bamboo.

As shown in fig. 1, 2 and 8, the upper side of the sliding block 5 is connected with the supporting plate 7 through the electric telescopic column 6, the supporting table 8 is fixed on the other side of the upper end face of the base 1, the rotating plate 9 penetrates through the supporting table 8, the first motor 11 is fixed in the middle of the upper end face of the base 1, the top of the first motor 11 is connected with the gear 12, the gear ring 10 is fixed on the outer side of the rotating plate 9, the gear ring 10 is connected on the gear 12 in a meshing manner, the gear 12 can rotate under the action of the first motor 11, and the rotating plate 9 rotates along with the rotation of the gear 12 due to the fact that the gear 12 is connected with the gear ring 10 in a meshing manner.

As shown in fig. 1, fig. 2, fig. 3, fig. 6 and fig. 7, a pillar 13 is fixed in the middle of the upper end surface of the base 1, the pillar 13 penetrates through the rotating plate 9, a second motor 14 is fixed at the top of the pillar 13, the output end of the second motor 14 is connected with the clamping sleeve 15, the pressing frame 16 is fixed at the top of the supporting table 8, the brackets 17 are symmetrically fixed at two sides of the upper end surface of the rotating plate 9, the rotating shaft 18 is rotatably connected on the brackets 17, one rotating shaft 18 is in clamping connection with the clamping sleeve 15, a channel 19 is formed in the brackets 17, a first compression spring 20 is fixed at the bottom of the channel 19, a latch 21 is fixed at the top of the first compression spring 20, and one latch 21 is attached to the inner top of the pressing frame 16, when the brackets 17 are positioned at the left side of the upper end surface of the rotating plate 9, the latch 21 is in clamping grooves 22 corresponding to the clamping grooves under the jacking action of the first compression spring 20, the rotating shaft 18 and the rotating rod 2301 are in a locking state, and when the brackets 17 are rotated to the right side of the upper end surface of the rotating plate 9, the latch 21 moves under the pressing action of the pressing frame 16 and leaves the clamping grooves 22 under the action of the pressing frame 16 and the latch 2301 is in an unlocking state.

As shown in fig. 1, 2, 3 and 7, the outside of the rotating shaft 18 is provided with clamping grooves 22, each rotating shaft 18 is provided with four clamping grooves 22, the peripheries Xiang Junyun of the four clamping grooves 22 are distributed on the rotating shaft 18, when the bolts 21 are connected in the clamping grooves 22 in a clamping manner, the rotating shaft 18 is in a locking state, the bolts 21 leave the clamping grooves 22 and then can unlock the rotating shaft 18, and the rotating shaft 18 can rotate.

As shown in fig. 1, fig. 2, fig. 4, fig. 5 and fig. 8, a winding mechanism 23 is fixed on each of the two rotating shafts 18, the winding mechanism 23 comprises a rotating rod 2301, the rotating rod 2301 is fixed at the outer end of the rotating shaft 18, a through hole 2302 is formed in the rotating rod 2301, a movable rod 2303 penetrates through the outer end of the rotating rod 2301, an extrusion block 2304 is fixed at the inner end of the movable rod 2303, the extrusion block 2304 stretches into the through hole 2302, after the winding drum is sleeved outside the rotating rod 2301, the rotating plate 9 horizontally rotates by 180 degrees, then the push plate 25 and the sleeve 26 move leftwards, the push plate 25 pushes the movable rod 2303 leftwards, the extrusion block 2304 extrudes four supporting blocks 2305, and the supporting blocks 2305 finally abut against the inner wall of the winding drum, so that the winding drum is conveniently fixed.

Further, a propping block 2305 is movably connected in the through hole 2302, the propping block 2305 is connected with the rotating rod 2301 through a second compression spring 2306, a limiting column 2307 is fixed in the through hole 2302, the limiting column 2307 penetrates through the propping block 2305, the second compression spring 2306 is wrapped on the outer side of the limiting column 2307, when the pushing plate 25 is used for pushing the movable rod 2303 to move leftwards, the pressing block 2304 can squeeze the propping block 2305, after the pushing plate 25 is removed, the propping block 2305 can automatically reset under the action of the second compression spring 2306, the pressing block 2304 and the movable rod 2303 reset along with the pressing block 2304, the winding drum is conveniently loosened, and the limiting column 2307 plays a limiting role on the propping block 2305.

As shown in fig. 1 and 2, an electric telescopic rod 24 is fixed at the top of the supporting table 8, a push plate 25 is fixed at one end of the electric telescopic rod 24, a sleeve 26 is fixed at one side of the push plate 25, the sleeve 26 and a movable rod 2303 are horizontally arranged, and when the movable rod 2303 is pushed by the push plate 25, the sleeve 26 is sleeved on the outer side of the rotating rod 2301, so that the rotating rod 2301 is conveniently supported.

A regular winding method of an aramid fiber rope comprises the following steps:

s1, after a winding drum is horizontally placed on a supporting plate 7, the supporting plate 7 ascends until the winding drum corresponds to a left rotating rod 2301, then the supporting plate 7 moves rightwards, so that the winding drum is sleeved on the outer side of the left rotating rod 2301, then a gear 12 rotates, so that a rotating plate 9 is driven to horizontally rotate 180 degrees, the winding drum is rotated to the right, and a corresponding bolt 21 moves downwards and leaves a clamping groove 22 under the extrusion action of an extrusion frame 16;

s2, the sleeve 26 moves leftwards along with the push plate 25, the push plate 25 pushes the corresponding movable rod 2303 to move leftwards, the sleeve 26 is finally sleeved and supported on the outer side of the rotating rod 2301, the extrusion block 2304 moves leftwards along with the corresponding movable rod 2303 and extrudes the supporting block 2305, and the supporting block 2305 is finally abutted on the inner wall of the winding drum, so that the winding drum is fixed;

s3, the second motor 14 drives the clamping sleeve 15 to rotate, so that the rotating rod 2301 and the winding drum are driven to integrally rotate, and the aramid fiber rope is automatically wound.

When the device is used, firstly, the self-locking roller 2 is utilized to move the device to a required place, after the winding drum is placed on the supporting plate 7, the supporting plate 7 is lifted, the winding drum is lifted to the height of the rotating rod 2301, then the hand crank 3 is held to rotate the lead screw 4, the sliding block 5 slides rightwards, the winding drum is sleeved on the outer side of the rotating rod 2301, then the gear 12 rotates, the rotating plate 9 is driven to horizontally rotate 180 degrees, the bolt 21 moves downwards under the extrusion action of the extrusion frame 16 and leaves the clamping groove 22, the push plate 25 and the sleeve 26 integrally move leftwards, the push plate 25 extrudes the movable rod 2303 to move leftwards, the extrusion block 2304 extrudes the supporting block 2305 to outwards move, the supporting block 2305 finally abuts against the inner wall of the winding drum, the winding drum is locked by the clamping sleeve 26 is sleeved on the outer side of the rotating rod 2301, the first end of an aramid rope is fixed on the outer side of the winding drum, the rotating shaft 18 and the rotating rod 2301 are driven to rotate, the next winding drum 2301 is automatically rotated, the next winding drum is sleeved on the rotating rod 2301 can be automatically reset, the push plate 25 can be automatically moved leftwards, and the whole operation of the winding drum can be finished, the winding drum can be reset, the whole is not be well known in the prior art, and the prior art can be well known.

In conclusion, the regular winding method and the winding machine for the aramid fiber rope achieve the purposes of automatic feeding, tight supporting and fixing, continuous winding, self-locking and automatic resetting and unlocking, and meet the use demands of people.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (9)

1. The utility model provides a rolling machine of aramid fiber rope law rolling, includes base (1), the bottom of base (1) is fixed with auto-lock gyro wheel (2), one side sliding connection of up end has slider (5), the upside of slider (5) is connected with layer board (7) through electric telescopic post (6), the opposite side of base (1) up end is fixed with brace table (8), run through on brace table (8) has swivel plate (9), the centre department of base (1) up end is fixed with pillar (13), pillar (13) run through swivel plate (9), the top of pillar (13) is fixed with second motor (14), the output of second motor (14) is connected with cutting ferrule (15), the top of brace table (8) is fixed with extrusion frame (16), the bilateral symmetry of swivel plate (9) up end is fixed with support (17), rotate on support (17) and be connected with pivot (18), one of them pivot (18) block is connected in two cutting ferrule (15) in the pivot (23), and it is characterized in that rolling mechanism (23) are all fixed. The top of brace table (8) is fixed with electric telescopic handle (24), the one end of electric telescopic handle (24) is fixed with push pedal (25), one side of push pedal (25) is fixed with sleeve (26).

2. The winding machine for regularly winding an aramid fiber rope according to claim 1, wherein: the support (17) is provided with a channel (19), a first compression spring (20) is fixed at the bottom of the channel (19), a bolt (21) is fixed at the top of the first compression spring (20), and one bolt (21) is attached to the inner top of the extrusion frame (16).

3. The winding machine for regularly winding an aramid fiber rope according to claim 1, wherein: clamping grooves (22) are formed in the outer sides of the rotating shafts (18), four clamping grooves (22) are formed in each rotating shaft (18), and the four clamping grooves (22) are circumferentially and uniformly distributed on the rotating shafts (18).

4. The winding machine for regularly winding an aramid fiber rope according to claim 1, wherein: the winding mechanism (23) comprises a rotating rod (2301), the rotating rod (2301) is fixed at the outer end of the rotating shaft (18), a through hole (2302) is formed in the rotating rod (2301), a movable rod (2303) penetrates through the outer end of the rotating rod (2301), an extrusion block (2304) is fixed at the inner end of the movable rod (2303), and the extrusion block (2304) stretches into the through hole (2302).

5. The winding machine for regularly winding the aramid fiber rope according to claim 4, wherein: the through hole (2302) is internally and movably connected with a supporting block (2305), the supporting block (2305) is connected with the rotating rod (2301) through a second compression spring (2306), a limiting column (2307) is fixed in the through hole (2302), the limiting column (2307) penetrates through the supporting block (2305), and the second compression spring (2306) is wrapped on the outer side of the limiting column (2307).

6. The winding machine for regularly winding an aramid fiber rope according to claim 1, wherein: the sleeve (26) and the movable rod (2303) are horizontally arranged.

7. The winding machine for regularly winding an aramid fiber rope according to claim 1, wherein: the base (1) is rotatably connected with a screw rod (4), the screw rod (4) penetrates through one side of the base (1) and is connected with the hand crank (3), and the outer side of the screw rod (4) is in threaded connection with a sliding block (5).

8. The winding machine for regularly winding an aramid fiber rope according to claim 1, wherein: the middle of the upper end face of the base (1) is fixedly provided with a first motor (11), the top of the first motor (11) is connected with a gear (12), the outer side of the rotating plate (9) is fixedly provided with a gear ring (10), and the gear ring (10) is connected to the gear (12) in a meshing mode.

9. The regular winding method of the aramid fiber rope is characterized by comprising the following steps of:

s1, after a winding drum is horizontally placed on a supporting plate (7), the supporting plate (7) rises until the winding drum corresponds to a left rotating rod (2301), then the supporting plate (7) moves rightwards, the winding drum is sleeved on the outer side of the left rotating rod (2301), then a gear (12) rotates, so that a rotating plate (9) is driven to horizontally rotate 180 degrees, the winding drum is rotated to the right, and a corresponding bolt (21) moves downwards under the extrusion action of an extrusion frame (16) and leaves a clamping groove (22);

s2, the sleeve (26) moves leftwards along with the push plate (25), the push plate (25) pushes the corresponding movable rod (2303) to move leftwards, the sleeve (26) is finally sleeved and supported on the outer side of the rotary rod (2301), the extrusion block (2304) moves leftwards along with the corresponding movable rod (2303) and extrudes the supporting block (2305), and the supporting block (2305) is finally abutted against the inner wall of the winding drum, so that the winding drum is fixed;

s3, the second motor (14) drives the clamping sleeve (15) to rotate, so that the rotating rod (2301) and the winding cylinder are driven to integrally rotate, the aramid fiber rope is automatically wound, and the next winding cylinder can be sleeved on the other rotating rod.