CN215051582U - Full-automatic rope twisting machine - Google Patents

Abstract

A full-automatic rope twisting machine is provided with a rope twisting system, a winding system, a frame and a winding frame; the rope twisting system comprises a rope collecting frame shaft I, a rope collecting frame shaft II, a swing rod and a pulley; the two side beams of the winding frame are arranged on a first rope winding frame shaft and a second rope winding frame shaft through bearings and are located on the inner sides of the swing rods, the winding system comprises a steering shaft, a traction accompanying roller shaft, a rope swinging shaft and a winding shaft which are arranged on the winding frame through the bearings, the two swing rods are connected into a rope twisting frame of a rectangular integral frame structure through two connecting ropes or connecting rods which are respectively arranged at the upper part and the lower part, the first rope winding frame shaft is fixedly connected with a driving wheel on an outer end shaft head outside the frame, and the motor drives the first rope winding frame shaft to rotate, so that the rope twisting frame and the second rope winding frame shaft are driven to synchronously rotate. The steering shaft gear is meshed with the transmission traction shaft, the traction shaft belt pulley is used for driving the winding shaft, and the winding shaft gear is meshed with the transmission rope swinging shaft. The mechanism realizes high-rotation-speed rotation and constant rotation speed; one machine realizes two functions of rolling and twisting strength.

Description

Full-automatic rope twisting machine

Technical Field

The utility model belongs to the technical field of the system rope, a full-automatic machine of twisting with fingers rope is related to.

Background

A rope making machine in the prior art is provided with a feeding mechanism, a synchronous rotating system structure and a large and complex rope collecting mechanism as application number 201020666981.0, a rope collecting shaft of the rope making machine drives a rope swinging shaft to rotate through a belt below a rope frame, the structure is complex, the occupied area is large, and the rope collecting machine is unstable frequently in the rope collecting process and affects the rope collecting quality, particularly, the rotating speed is limited and cannot run at a high speed. In addition, the rope frame is provided with a synchronous chain wheel transmission mechanism to realize synchronous rotation of two sides of the rope collecting frame, and the rope collecting frame is complex and large in structure and high in cost. The present inventors have conducted long-term studies and have improved the existing structure to overcome the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a full-automatic machine of twisting with fingers rope, its aim at solve prior art system rope machine structure complicated, pendulum rope axle can not high-speed steady rotation and the complicated technical problem of rope frame synchronous drive mechanism.

The utility model adopts the following technical scheme:

a full-automatic rope twisting machine is provided with a rope twisting system, a winding system, a frame and a winding frame;

the rope twisting system comprises a rope collecting frame shaft I, a rope collecting frame shaft II, a swing rod and a pulley; the rope winding frame shaft I and the rope winding frame shaft II are coaxially arranged on the machine frame on two sides through bearings, and two swing rods are arranged and vertically penetrate through the axle centers of the rope winding frame shaft I and the rope winding frame shaft II respectively, so that the middle parts of the swing rods are fixedly connected with the rope winding frame shaft I and the rope winding frame shaft II;

the two side beams of the winding rack are mounted on the first rope winding rack shaft and the second rope winding rack shaft through bearings and are positioned on the inner side of the swing rod, the winding system comprises a steering shaft, a traction accompanying roller shaft, a rope swinging shaft and a winding shaft which are mounted on the winding rack through bearings, the upper end of the steering shaft is provided with a first gear, the lower end of the steering shaft is provided with a second bevel gear, the traction shaft is provided with a traction roller, the traction accompanying roller shaft is provided with a traction accompanying roller, the rope swinging shaft is provided with a rope swinging shaft cap, and the winding shaft is provided with a winding disc;

the two swing rods are connected with a rope twisting frame which is of a rectangular integral frame structure through two connecting ropes or connecting rods which are respectively arranged at the upper part and the lower part, and the rope twisting frame rotates synchronously with the first rope winding frame shaft and the second rope winding frame shaft; a pulley II and a pulley I are symmetrically arranged at the same end of the left swing rod and the right swing rod; the rope collecting frame shaft I and the rope collecting frame shaft II are respectively provided with a pulley cavity, a pulley III and a pulley IV are arranged in the pulley cavity, the upper part of the pulley cavity corresponding to the pulley is open, the pulley cavity is communicated with a rope hole arranged at the shaft end of the same end of the rope collecting frame shaft I or the rope collecting frame shaft II, and the rope hole of the rope collecting frame shaft II is communicated with the shaft end of one side outside the frame; the twisted rope passes through a rope hole of a second rope collecting frame shaft, then winds around the pulley IV from the lower part and is led out from an opening at the upper part of the pulley cavity, then winds around the pulley II and the pulley I on the two swing rods, then is led into the pulley cavity of the first rope collecting frame shaft, winds around the bottom of the pulley III and is led out of a rope hole at the inner end shaft end of the first rope collecting frame shaft;

the first rope winding frame shaft is fixedly connected with a transmission wheel on the outer end shaft head outside the rack, the motor drives the transmission wheel to drive the first rope winding frame shaft to rotate, the swing rod on the right side is driven to synchronously rotate, the rope twisting frame is driven to synchronously rotate, and the rope twisting frame drives the second rope winding frame shaft to synchronously rotate.

The inner end of the rope winding frame shaft is fixedly connected with a bevel gear and is positioned in the winding frame, the bevel gear is meshed with and drives a bevel gear II fixedly connected with the lower end of the steering shaft, the middle part of the steering shaft is arranged on an upper beam of the winding frame through a bearing, and the upper end of the steering shaft is fixedly connected with a gear and is positioned outside the winding frame; the first gear is meshed with a second gear, the second gear is fixedly connected to the upper end of the traction shaft to drive the traction shaft to rotate, the upper portion and the lower portion of the traction shaft are mounted on an upper beam and a lower beam of the winding rack through bearings, a first belt pulley fixedly connected to the lower end of the traction shaft rotates along with the traction shaft, a first belt pulley is connected with a clutch pulley through belt transmission, the clutch pulley is mounted on the winding shaft through bearings, the clutch pulley and the first belt pulley are located outside the winding rack, the clutch pulley controls the winding shaft to rotate along with the winding shaft through clutch on the winding shaft, the lower portion of the winding shaft is mounted on the lower beam of the winding rack through bearings, a winding disc fixedly connected to the upper portion of the winding shaft rotates along with the winding disc, a fourth gear fixedly connected to the winding shaft is located between the lower beam and the winding disc, and a fourth gear is meshed with a transmission intermediate gear, the intermediate wheel is meshed with a transmission gear III to rotate, the gear III is fixedly connected to the rope swinging shaft, and the gear III drives the rope swinging shaft to rotate; the intermediate wheel is arranged on an intermediate wheel shaft through a bearing, and the intermediate wheel shaft is fixedly arranged on a lower beam of the winding rack;

the twisted rope led out of the rope hole at the inner end shaft end of the rope winding frame shaft penetrates through the bevel gear I, bypasses the traction roller and the traction accompanying roller to finish traction, penetrates through the rope swinging shaft cap, and is wound on the winding disc to be wound into a finished rope.

The upper end and the lower end of the traction accompanying roll shaft are arranged on an upper beam and a lower beam of the winding rack through bearings, and the middle part of the traction accompanying roll shaft is provided with a traction accompanying roll corresponding to the traction roll; and a twisted rope is wound between the traction roller and the traction companion roller to finish traction.

The rope swinging shaft is sleeved and connected with a rope swinging shaft cap, the rope swinging shaft cap is fixedly connected with a rope swinging ring, the rope swinging shaft cap is connected with a forward and backward spiral thread groove arranged on the rope swinging shaft through a crescent key to move back and forth to complete rope swinging, and the rope twisting is arranged in the rope swinging ring in a penetrating mode.

The utility model has the advantages as follows:

the utility model has the advantages that the rolling shaft drives the gear on the rope swinging shaft to rotate through the gear and the intermediate wheel to drive the rope swinging shaft to rotate, so that the high-rotation-speed rotation can be realized, and the rotation speed is constant and stable; the rope frame is connected with the swing rod through four points to realize synchronous rotation, a mechanical transmission mechanism is not needed, the traction accompanying roller is only dragged to rotate through twisting ropes by the traction roller, gear transmission is not needed, the structure is simple, the manufacturing cost is low, the occupied area is small, and two functions of rolling and twisting strength are realized by one machine. Can install a plurality ofly simultaneously in a frame the utility model discloses the operation is used, improves work efficiency.

Description of the drawings:

fig. 1 is the utility model discloses overall structure schematic diagram, the reference numeral:

the rope winding device comprises a driving wheel 1, a first rope winding frame shaft 2, a first bevel gear 21, a swing rod 3, a second rope winding frame shaft 4, a connecting rope 31, a steering shaft 5, a second bevel gear 51, a first gear 52, a traction shaft 6, a second gear 61, a traction roller 62, a first belt pulley 63, a winding shaft 7, a clutch wheel 71, a clutch 72, a clutch pressure spring 721, a clutch pressure plate 73, a fourth gear 74, a winding disc 75, a traction accompanying roller shaft 8, a traction accompanying roller 81, a rope winding shaft 9, a rope winding shaft cap 91, a third gear 92, an idle wheel 10, a pulley 11, a first pulley 111, a second pulley 112, a pin 12, a twisted rope 13 and a finished rope 14.

The specific implementation mode is as follows:

the following describes the embodiments of the present invention with reference to the accompanying drawings.

Referring to fig. 1, the utility model discloses a full-automatic rope twisting machine, which is provided with a rope twisting system, a winding system, a frame and a winding frame;

the rope twisting system comprises a rope collecting frame shaft I2, a rope collecting frame shaft II 4, a swing rod 3 and a pulley 11; the rope winding frame shaft I and the rope winding frame shaft II are coaxially arranged on the machine frame 16 at two sides through bearings, the number of the swing rods is two, the swing rods are respectively arranged on the left and right and vertically penetrate through the axle centers of the rope winding frame shaft I and the rope winding frame shaft II respectively, through holes vertically penetrating through the axle centers are formed in the rope winding frame shaft I and the rope winding frame shaft II to accommodate the swing rods, and the middle parts of the swing rods are fixedly connected with the rope winding frame shaft I and the rope winding frame shaft II;

the winding system comprises a steering shaft 5, a traction shaft 6, a traction accompanying roller shaft 8, a swing rope shaft 9 and a winding shaft 7 which are arranged on the winding frame through bearings, wherein the upper end of the steering shaft is provided with a first gear 52, the lower end of the steering shaft is provided with a second bevel gear 51, the traction shaft is provided with a traction roller 62, the traction accompanying roller shaft is provided with a traction accompanying roller 81, the swing rope shaft is provided with a swing rope shaft cap 91, and the winding shaft is provided with a winding disc 75;

the left and right swing rods 3 are connected with a rope twisting frame which is of a rectangular integral frame structure through two connecting ropes or connecting rods 31 respectively arranged at the upper end and the lower end, and the rope twisting frame rotates synchronously with the first rope winding frame shaft and the second rope winding frame shaft; a pulley II 112 and a pulley I111 are symmetrically arranged at the same end of the left swing rod and the right swing rod; the rope collecting frame shaft I2 and the rope collecting frame shaft II 4 are respectively provided with a pulley cavity, a pulley III 113 and a pulley IV 114 are arranged in the pulley cavity, the upper part of the pulley cavity corresponding to the pulley is open, the pulley cavity is communicated with a rope hole arranged at the shaft end of the same end of the rope collecting frame shaft I2 or the rope collecting frame shaft II 4, and the rope hole of the rope collecting frame shaft II 4 is communicated with the shaft end of one side outside the frame; the twisted rope 13 passes through a rope hole of the rope collecting frame shaft II 4, then winds around the pulley II from the lower part, is led out from an opening at the upper part of the pulley cavity, then winds around the pulley II 112 and the pulley I111 on the two swing rods, is led into the pulley cavity of the rope collecting frame shaft I2, winds around the bottom of the pulley III, and then is led out of a rope hole at the inner end shaft end of the rope collecting frame shaft I2;

the rope winding frame shaft I2 is fixedly connected with a transmission wheel 1 on an outer end shaft head outside the rack, the transmission wheel 1 is driven by a motor to drive the rope winding frame shaft I2 to rotate, the swing rod 3 on the right side is driven to rotate synchronously, the rope twisting frame rotates synchronously, and the rope twisting frame drives the rope winding frame shaft II 4 to rotate synchronously.

The inner end of the rope winding frame shaft I2 is fixedly connected with a bevel gear I21 and is positioned inside the winding frame 15, the bevel gear I21 is meshed with and drives a bevel gear II 51 fixedly connected with the lower end of the steering shaft 5, the middle part of the steering shaft 5 is installed on an upper beam of the winding frame 15 through a bearing, and the upper end of the steering shaft 5 is fixedly connected with a gear I52 and is positioned outside the winding frame; the first gear 52 is meshed with the second transmission gear 61, the second gear 61 is fixedly connected to the upper end of the traction shaft 6 to drive the traction shaft 6 to synchronously rotate, the upper part and the lower part of the traction shaft are mounted on an upper beam and a lower beam of the winding frame 15 through bearings, a first traction shaft lower end fixed connection belt pulley 63 is driven by the traction shaft to synchronously rotate, the first belt pulley 63 is connected with a clutch wheel 71 through belt transmission, the clutch wheel 71 is mounted on the winding shaft 7 through a bearing, the clutch wheel 71 and the first belt pulley 63 are located outside the winding frame, the clutch wheel 71 is separated from and combined with a clutch 72 arranged on the winding shaft 7 to control the winding shaft 7 to synchronously rotate along with the clutch wheel, the lower part of the winding shaft 7 is mounted on the lower beam of the winding frame 15 through a bearing, the upper part of the winding shaft 7 is fixedly connected with a winding disc 75 to synchronously rotate along with the winding disc, and a fourth fixed connection gear 74 on the winding shaft 7 is located between the lower beam and the winding disc, a fourth gear 74 is meshed with the transmission intermediate wheel 10, the intermediate wheel is meshed with a third transmission gear 92 to rotate, the third gear 92 is fixedly connected to the rope swinging shaft, and the third gear 92 drives the rope swinging shaft to synchronously rotate; the intermediate wheel is arranged on an intermediate wheel shaft through a bearing, and the intermediate wheel shaft is fixedly arranged on a lower beam of the winding frame 15;

the twisted rope 13 led out of the rope hole at the inner end shaft end of the rope winding frame shaft I2 penetrates through the bevel gear I21, bypasses the traction roller 62 and the traction accompanying roller 81, finishes traction, penetrates through the rope swinging shaft cap 91, and is wound on the winding disc 75 to be wound into a finished rope 14.

The upper end and the lower end of the traction accompanying roll shaft 8 are arranged on an upper beam and a lower beam of the winding frame 15 through bearings, a driving wheel is not arranged on the traction accompanying roll shaft 8, and a traction accompanying roll 81 is arranged in the middle part corresponding to the traction roll 62; and a twisted rope is wound between the traction roller and the traction companion roller to finish traction.

The rope swinging shaft is sleeved and connected with a rope swinging shaft cap 91, the rope swinging shaft cap 91 is fixedly connected with a rope swinging ring, the rope swinging shaft cap is connected with a forward and backward spiral thread groove arranged on the rope swinging shaft through a crescent key to move back and forth to complete rope swinging, and the rope twisting is arranged in the rope swinging ring in a penetrating mode.

The utility model discloses the theory of operation:

the motor drives the transmission wheel 1 to rotate, the rope winding frame shaft I2 and the right swing rod 3 connected with the rope winding frame shaft I are driven to synchronously rotate, the swing rod 3 on the right drives the swing rod on the left to rotate through the connecting rope 31, the rope twisting frame integrally and synchronously rotates, the swing rod on the left drives the rope winding frame shaft II 4 to synchronously rotate, and the rope twisting frame carries a rope twisting to circularly move around the winding frame 15 to complete a rope twisting process. The winding frame 15 does not rotate.

The rope collecting frame shaft I2 drives the bevel gear I21 connected with the rope collecting frame shaft I to rotate and is meshed with the transmission bevel gear II 51 to rotate so as to drive the steering shaft 5 and the gear I52 to rotate, the gear I52 is meshed with the transmission gear II 61 to rotate so as to drive the traction shaft 6 and the traction roller 62 to rotate, the twisted rope passes through the inner swinging rope of the swinging rope ring after bypassing the traction roller 62 and the traction accompanying roller 81 to complete traction, the traction accompanying roller 81 rotates under the traction of the twisted rope, and the traction shaft 6 and the traction roller 62 as well as the traction accompanying roller shaft 8 and the traction accompanying roller 81 are connected through keys or are welded and fixed.

The lower end of the traction shaft is fixedly connected with a first belt pulley 63 to rotate along with the traction shaft, the first belt pulley 63 is connected with a clutch pulley 71 to rotate through belt transmission, an operating clutch 72 is connected with the clutch pulley 71, the winding shaft 7 rotates along with the clutch pulley 71, and a winding disc 75 connected to the upper portion of the winding shaft 7 winds a finished product rope 14 along with the rotation of the winding disc. The clutch 72 is pressed and connected or separated with the clutch wheel 71 through the cooperation of the clutch pressure spring 721 and the clutch pressure plate 73. The structure of the clutch 72 is not described in detail in the prior art.

A fourth gear 74 connected to the winding shaft 7 is meshed with the transmission intermediate wheel 10, the intermediate wheel is meshed with a third transmission gear 92 to rotate, and the third gear 92 drives the rope swinging shaft to rotate;

the rope twisting frame is a low bank and tight rope, the traction roller 62 and the traction accompanying roller 81 apply traction force to the rope, the rope swinging shaft cap 91 drives the rope swinging ring to swing up and down, the rope is uniformly wound on the winding disc 75, the winding disc 75 and the traction roller 62 are driven by the clutch wheel 71 and the belt pulley 63 to apply traction force to the rope from two ends, the rope twisting and the rope winding process are completed by matching the rope twisting frame with the rope tightening ring, the synchronous rotation of the winding frame shaft I2 and the winding frame shaft II 4 is realized by depending on the rope twisting frame, a mechanical transmission mechanism is not needed, the traction accompanying roller 81 is only dragged to rotate by the traction roller 62 through the rope twisting, the gear transmission is not needed, the whole structure is simple, the occupied area is small, and the manufacturing cost is low.

Claims (4)

1. A full-automatic rope twisting machine is characterized by being provided with a rope twisting system, a winding system, a rack and a winding rack;

the rope twisting system comprises a first rope winding frame shaft (2), a second rope winding frame shaft (4), a swing rod (3) and a pulley (11); the rope winding frame shaft I and the rope winding frame shaft II are coaxially arranged on the machine frame (16) at two sides through bearings, and two swing rods are arranged and vertically penetrate through the axle centers of the rope winding frame shaft I and the rope winding frame shaft II respectively, so that the middle parts of the swing rods are fixedly connected with the rope winding frame shaft I and the rope winding frame shaft II;

the winding system comprises a steering shaft (5), a traction shaft (6), a traction accompanying roll shaft (8), a swing rope shaft (9) and a winding shaft (7) which are arranged on the winding frame through bearings, wherein the upper end of the steering shaft is provided with a first gear (52), the lower end of the steering shaft is provided with a second bevel gear (51), the traction shaft is provided with a traction roller (62), the traction accompanying roll shaft is provided with a traction accompanying roll (81), the swing rope shaft is provided with a swing rope shaft cap (91), and the winding shaft is provided with a winding disc (75);

the two swing rods (3) are connected with a rope twisting frame which is of a rectangular integral frame structure through two connecting ropes or connecting rods (31) which are respectively arranged at the upper part and the lower part, and the rope twisting frame rotates synchronously with the first rope winding frame shaft and the second rope winding frame shaft; a pulley II (112) and a pulley I (111) are symmetrically arranged at the same end of the left swing rod and the right swing rod; the rope collecting frame shaft I (2) and the rope collecting frame shaft II (4) are respectively provided with a pulley cavity, a pulley III (113) and a pulley IV (114) are arranged in the pulley cavity, the upper part of the pulley cavity corresponding to the pulley is open, the pulley cavity is communicated with a rope hole arranged at the same end of the rope collecting frame shaft I (2) or the rope collecting frame shaft II (4), and the rope hole of the rope collecting frame shaft II (4) penetrates through the shaft end of one side outside the rack; the twisted rope (13) passes through a rope hole of the second rope collecting frame shaft (4), then winds around the pulley IV from the lower part and is led out from an opening at the upper part of the pulley cavity, then winds around the pulley II (112) and the pulley I (111) on the two swing rods, then is led into the pulley cavity of the first rope collecting frame shaft (2), winds around the bottom of the pulley III and is led out of a rope hole at the inner end shaft end of the first rope collecting frame shaft (2);

the rope winding frame is characterized in that the first rope winding frame shaft (2) is fixedly connected with a driving wheel (1) on the outer end shaft head outside the rack, the driving wheel (1) is driven by a motor to drive the first rope winding frame shaft (2) to rotate, the swing rod (3) on the right side is driven to synchronously rotate, the rope twisting frame is driven to synchronously rotate, and the second rope winding frame shaft (4) is driven to synchronously rotate by the rope twisting frame.

2. The full-automatic rope twisting machine according to claim 1, wherein the inner end of the rope winding frame shaft I (2) is fixedly connected with a bevel gear I (21) and is positioned inside the winding frame (15), the bevel gear I (21) is engaged with and drives a bevel gear II (51) fixedly connected with the lower end of the steering shaft (5), the middle part of the steering shaft (5) is mounted on an upper beam of the winding frame (15) through a bearing, and the upper end of the steering shaft (5) is fixedly connected with a gear I (52) and is positioned outside the winding frame; gear (52) meshing transmission gear two (61), gear two (61) fixed connection in drive axle (6) upper end drive pull axle (6) and rotate, it installs through the bearing to pull epaxial upper and lower part on the upper beam, the underbeam of rolling frame (15), it follows to pull axle lower extreme fixed connection belt pulley (63) pull the axle and rotate, belt pulley (63) are through belt transmission connection clutch pulley (71), clutch pulley (71) are installed through the bearing on rolling axle (7), clutch pulley (71), belt pulley (63) are located the rolling frame is outside, clutch pulley (71) pass through clutch (72) separation and reunion control rolling axle (7) that set up on rolling axle (7) and rotate along with it, and rolling axle (7) lower part is installed through the bearing on the underbeam of rolling frame (15), the upper part of a winding shaft (7) is fixedly connected with a winding disc (75) to rotate along with the winding disc, a gear four (74) is fixedly connected to the winding shaft (7) and is positioned between the lower beam and the winding disc, the gear four (74) is meshed with a transmission idle gear (10), the idle gear is meshed with a transmission gear three (92) to rotate, the gear three (92) is fixedly connected to the rope swinging shaft, and the gear three (92) drives the rope swinging shaft to rotate; the intermediate wheel is arranged on an intermediate wheel shaft through a bearing, and the intermediate wheel shaft is fixedly arranged on a lower beam of the winding rack (15);

the twisted rope (13) led out of the rope hole at the inner end of the rope collecting frame shaft I (2) penetrates through the bevel gear I (21), bypasses the traction roller (62) and the traction accompanying roller (81) to finish traction, penetrates through the rope swinging shaft cap (91), and is wound on the winding disc (75) to be wound into a finished rope (14).

3. The full-automatic twisting machine according to claim 1, wherein the upper and lower ends of the drawing accompanying roll shaft (8) are mounted on the upper and lower beams of the winding frame (15) through bearings, and the middle part is provided with a drawing accompanying roll (81) corresponding to the drawing roll (62); and a twisted rope is wound between the traction roller and the traction companion roller to finish traction.

4. The full-automatic rope twisting machine according to claim 1, wherein a rope swinging shaft cap (91) is connected to the rope swinging shaft in a sleeved mode, a rope swinging ring is fixedly connected to the rope swinging shaft cap (91), the rope swinging shaft cap is connected to a forward and reverse spiral thread groove formed in the rope swinging shaft through a crescent key to move back and forth to complete rope swinging, and the twisted rope is arranged in the rope swinging ring in a penetrating mode.

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