CN115772814B - Rope tying machine - Google Patents

Abstract

This invention discloses a rope-making machine, comprising: a stranding mechanism, which includes a stranding frame, a first yarn feeding assembly mounted on the stranding frame, and a second yarn feeding assembly located above the first yarn feeding assembly. At least one first yarn feeding assembly and at least one second yarn feeding assembly are provided. Each second yarn feeding assembly includes a rotating disk, a yarn feeding frame mounted on the rotating disk, and a first yarn bobbin rotatably mounted on the yarn feeding frame. The first yarn bobbin is horizontally positioned on the yarn feeding frame. Each second yarn feeding assembly also includes a rotating frame, a second yarn bobbin rotatably mounted on the rotating frame, and a guide shaft mounted on the rotating frame for the first yarn unwound from the first yarn bobbin to pass through. This invention prevents uneven rope production due to changes in yarn gravity during stranding, makes the rope twisting tighter during twisting, and allows for simultaneous twisting and winding of the yarn during take-up, further increasing the quality and efficiency of rope making.

Description

Rope tying machine

Technical Field

The invention relates to the technical field of rope making equipment, in particular to a rope tying machine.

Background

The rope machine is also called a rope making machine, can twist a plurality of yarns into a strand or rope, and generally comprises a paying-off device, a strand making device, a rope twisting device and a wire collecting device. The utility model discloses a system strand, ply, rope machine as in CN102899947A, wherein first power source connection drive wheel is connected the axis of rotation connecting wire dish and is connected the stopper, and the ply point dress is in the place of the place ahead butt joint that corresponds with the system strand machine, and the second power source is connected with the system rope machine axis of rotation, and the frame drive wheel is connected with system rope axis of rotation, and system rope axis of rotation drive wheel is connected with the transmission shaft, and the transmission shaft is connected with the recess drive wheel. The second power source is connected with a force source driving wheel which is connected with a rope making machine driving shaft, the transmission shaft of the rope making machine is connected with a speed reducing device, the speed reducing device is connected with a speed reducing connecting rod the speed reducing connecting rod is connected with the moving rod which is connected with the rope loading disc, the rope loading disc is connected with a rope loading brake. The invention can simultaneously carry out stranding, rope making and rope collecting on the same machine, and the wire is not blocked and broken due to the brittle and small raw material wire and the joint during wire outgoing and stranding.

However, the rope making machine in the technical scheme can only ply and make ropes for yarns with fewer strands, and the situation that the ropes are made unevenly due to the change of the gravity of the finished ropes exists during the strand making, the situation that the ropes are not tightly twisted exists during the rope twisting, and the situation that the ropes cannot be twisted while being folded exists during the rope folding.

Disclosure of Invention

The rope tying machine provided by the invention overcomes the defects in the prior art, is reasonable in structural design, can not cause uneven rope making caused by gravity change of yarns during rope making, can enable the rope to be more compact during rope tying, and can wind the yarns while winding the yarns during rope winding, so that the rope tying quality and efficiency are further improved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a rope tying machine comprising:

The strand making mechanism comprises a strand making rack, a first yarn feeding assembly arranged on the strand making rack, a second yarn feeding assembly positioned above the first yarn feeding assembly, at least one first yarn feeding assembly is arranged on the first yarn feeding assembly, at least one second yarn feeding assembly is arranged on the second yarn feeding assembly, each second yarn feeding assembly comprises a rotating disc, a yarn feeding frame arranged on the rotating disc and a first yarn barrel rotationally arranged on the yarn feeding frame, the first yarn barrel is transversely arranged on the yarn feeding frame, each second yarn feeding assembly comprises a rotating frame, a second yarn barrel rotationally arranged on the rotating frame, a yarn passing shaft arranged on the rotating frame and used for allowing the first yarn unreeled by the first yarn barrel to pass through, a plurality of yarn passing rods circumferentially arranged on the rotating frame and positioned on the outer side of the yarn passing shaft, each yarn passing rod is transversely arranged on the rotating frame and used for passing the second yarn unreeled by the second yarn barrels, and a plurality of groups of second yarns are wound on the first yarn barrels to obtain strands;

The stranding and rope rolling mechanism is arranged on one side of the stranding mechanism and comprises a mounting frame, a rotating frame arranged on the mounting frame, and a first rope rolling motor and a second rope rolling motor which are arranged on the mounting frame, wherein the first rope rolling motor and the second rope rolling motor drive belt pulleys to rotate through belts, the belt pulleys are connected with the mounting frame through belt wheel shafts, a plurality of rope rolling wheels are rotatably arranged on the rotating frame, driven teeth are sleeved at the end parts of the rope rolling wheels, transmission teeth matched with the driven teeth are arranged between two adjacent rope rolling wheels, and the first rope rolling motor or the belt pulleys are connected with transmission wheels through belts and drive the rope rolling wheels to rotate through worm and gear structures;

The material collecting mechanism comprises a material collecting barrel which is rotatably arranged, a rotating rod which is arranged on one side of the material collecting barrel, and a driving wheel which is arranged on the rotating rod and is in linkage fit with the rotating rod, wherein a mounting plate is arranged above the material collecting barrel, a wire passing hole is formed in the mounting plate, a driven wheel is arranged below the wire passing hole on the mounting plate, a wire collecting wheel which is coaxially connected with the driven wheel is arranged on the mounting plate, and an auxiliary wheel which is arranged opposite to the wire collecting wheel is arranged on the mounting plate.

Preferably, the strand making machine frame is provided with a wire harness assembly, the wire harness assembly comprises a wire harness wheel, a roller frame provided with a roller and yarn feeding plates which are arranged on the outer side of the wire harness wheel and correspond to the second yarn feeding assembly, and each yarn feeding plate is provided with a transmission wheel and a coil above a coil passing shaft.

Preferably, the rotating frame is provided with a fixed shaft in a penetrating way, and the fixed shaft is provided with a penetrating hole through which the first yarn passes and is conveyed to the bobbin.

Preferably, the first yarn feeding assembly is provided with three, the bottom of each rotary disk is fixedly connected with a first gear sleeve, a first motor is arranged on the strand making rack, and the first motor drives the first gear sleeve to rotate through a first belt.

Preferably, the second yarn feeding assembly is provided with three, the bottom of each rotating frame is fixedly connected with a second gear sleeve, the fixed shaft penetrates through the second gear sleeve, a bearing is arranged between the fixed shaft and the second gear sleeve, a second motor is arranged on the strand making frame, and the second motor drives the second gear sleeve to rotate through a second belt.

Preferably, at least two support plates are arranged above the rotating frame, a support frame is arranged at the position corresponding to the support plates on the strand making frame, a bearing outer ring is arranged on the support frame, and a bearing inner ring fixedly connected with the support plates is arranged in the bearing outer ring.

Preferably, a speed reducing wheel is arranged on one side of the rotating frame, which is positioned on the second yarn barrel, a fixed block is arranged on the rotating frame, and a speed reducing rope which penetrates through the speed reducing wheel is adjustably arranged on the fixed block.

Preferably, the second rope rolling motor is connected with a driving wheel through a belt, the driving wheel is coaxially connected with a first driving sprocket, the first driving sprocket is connected with a first driven sprocket through a first chain, the first driven sprocket is coaxially connected with a driving gear, the driving gear is meshed with a driven gear, the driven gear is connected with a transverse transmission shaft, the transverse transmission shaft drives a vertical transmission shaft to rotate through a bevel gear structure, the vertical transmission shaft is connected with a mounting plate for supporting a receiving barrel, a second driving sprocket is arranged on the vertical transmission shaft and connected with a second driven sprocket through a second chain, and the second driven sprocket is connected with a rotating rod.

Preferably, the outer side of the receiving barrel is provided with an outer barrel, the side edge of the receiving barrel is provided with a fixed plate, a pulley arranged on the fixed plate is arranged between the receiving barrel and the outer barrel, and the mounting plate is arranged on the fixed plate.

The rope twisting device has the beneficial effects that the structure design is reasonable, the situation that the rope is not uniformly manufactured due to the change of the gravity of the yarns during the strand manufacturing is avoided, the rope twisting is more compact during the rope twisting, and the yarns can be twisted and wound while being twisted during the rope winding, so that the rope twisting quality and efficiency are further improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of a structure of a strand making mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic view showing the structure of a first yarn feeding assembly according to an embodiment of the present invention;

FIG. 4 is a schematic view showing the structure of a second yarn feeding assembly and a harness assembly according to an embodiment of the present invention;

FIG. 5 is a schematic view showing the structure of a second yarn feeding assembly according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a beam line assembly according to an embodiment of the present invention;

FIG. 7 is a schematic view showing the structure of a strand machine frame according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a structure reflecting a stranding and rope-twisting mechanism according to an embodiment of the present invention;

FIG. 9 is a schematic view showing the structure of a rotating frame according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of a structure reflecting a stranding and rope rolling mechanism and a material receiving mechanism according to an embodiment of the present invention;

FIG. 11 is a schematic diagram showing a structure of a receiving mechanism according to an embodiment of the present invention;

FIG. 12 is a second schematic structural view of a receiving mechanism according to an embodiment of the present invention;

FIG. 13 is a third schematic structural view of a receiving mechanism according to an embodiment of the present invention;

FIG. 14 is a schematic view showing the structure of a mounting plate according to an embodiment of the present invention;

FIG. 15 is a cross-sectional view of a receiving mechanism according to an embodiment of the present invention.

A100, a strand making mechanism; A1, a strand making machine frame; A2, a first yarn feeding component; A21, a rotary disc, a22, a yarn feeding frame, a23, a first yarn cylinder, a24, a first motor, a25, a first belt, A3, a second yarn feeding component, a31, a rotary frame, a32, a second yarn cylinder, a33, a spool, a34, a yarn passing rod, a35, a fixed shaft, a36, a perforation, a37, a second gear sleeve, a38, a second motor, a39, a second belt, A4, a yarn binding component, a41, a yarn binding wheel, a42, a roller frame, a43, a roller, a44, a yarn feeding plate, a45, a transmission wheel, a46, a yarn passing coil, A5, a support plate, a51, a support frame, a52, a bearing outer ring, a53, a bearing inner ring, A6, a reduction gear, a61, a fixed block, a62, a deceleration rope, a B100, a twining mechanism, a B1, a mounting bracket, a B2, a rotary frame, A3, a first twining motor, a B4, a second rope motor, a B5, a worm wheel, a belt pulley B6, a pulley B9, a pulley, a gear wheel B9, a sprocket, a gear wheel, A2, a drive pulley, a 16, a drive pulley, A2, a drive pulley B5, a drive pulley B16, a drive pulley B7, a drive pulley B16, a drive pulley B7, a drive pulley B16, C7, C8, C2, C8, C2, C13, C8, C13, C5, C drive pulley B2, C5, C drive pulley, C5, C drive pulley, C5, C, B, B, B, B, the.

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.

1-15, A rope making machine comprises a rope making mechanism A100, a rope making mechanism A and a rope winding mechanism, wherein the rope making mechanism comprises a rope making rack A1, a first yarn feeding component A2 arranged on the rope making rack A1, and a second yarn feeding component A3 arranged above the first yarn feeding component A2, at least one first yarn feeding component A2 is arranged, at least one second yarn feeding component A3 is arranged, each second yarn feeding component A3 comprises a rotary disk A21, a yarn feeding rack A22 arranged on the rotary disk A21 and a first yarn barrel A23 rotatably arranged on the yarn feeding rack A22, the first yarn barrel A23 is transversely arranged on the yarn feeding rack A22, and each second yarn feeding component A3 comprises a rotary rack A31, A second yarn drum A32 rotatably arranged on the rotating frame A31, a yarn passing shaft A33 arranged on the rotating frame A31 and used for passing the first yarn which is unreeled by the first yarn drum A23, a plurality of yarn passing rods A34 circumferentially arranged on the rotating frame A31 and positioned outside the yarn passing shaft A33, the second yarn drum A32 transversely arranged on the rotating frame A31, the yarn passing rods A34 used for passing the second yarn which is unreeled by the second yarn drum A32, a plurality of groups of second yarns wound on the first yarn and used for preparing a strand, a stranding and twisting mechanism B100 arranged on one side of the strand making mechanism A100 and comprising a mounting frame B1, The material collecting mechanism comprises a mounting frame B1, a rotating frame B2, a first rope rolling motor B3, a second rope rolling motor B4, a belt wheel B6, a material collecting mechanism C100, a material collecting barrel C1, a material collecting mechanism B1 and a material collecting mechanism C2, wherein the rotating frame B2 is arranged on the mounting frame B1, the first rope rolling motor B3 and the second rope rolling motor B4 are arranged on the first rope rolling motor B3 and the second rope rolling motor B4 are respectively arranged on the first rope rolling motor B1, the belt wheel B3 and the second rope rolling motor B4 are respectively driven by the belt B5 to rotate, the belt wheel B6 is connected with the mounting frame B1 through a belt wheel shaft B7, a plurality of rope rolling wheels B9 are rotatably arranged on the rotating frame B2, driven teeth B10 are sleeved at the end parts of the rope rolling wheels B9, a transmission gear B11 matched with the driven teeth B10 are arranged between two adjacent rope rolling wheels B9, the first rope rolling motor B3 or the belt wheels B6 are connected with a transmission wheel B12 through the belt B13, the transmission gear B12 is driven by a worm and worm wheel B13 to rotate through the worm and a worm structure B13, a material collecting mechanism C1, The wire winding machine comprises a rotating rod C2 arranged on one side of a wire winding barrel C1, a driving wheel C3 arranged on the rotating rod C2 and in linkage fit with the rotating rod C2, a mounting plate C4 arranged above the wire winding barrel C1, a wire passing hole C5 arranged on the mounting plate C4, a driven wheel C6 arranged below the wire passing hole C5 on the mounting plate C4, a wire winding wheel C7 coaxially connected with the driven wheel C6 arranged on the mounting plate C4, an auxiliary wheel C8 arranged opposite to the wire winding wheel C7 arranged on the mounting plate C4, a wire binding assembly A4 arranged on a strand machine frame A1, wherein the wire binding assembly A4 comprises a wire binding wheel A41, A roller frame A42 provided with a roller A43 and a yarn feeding plate A44 arranged outside the wire harness wheel A41 and corresponding to the second yarn feeding assembly A3, wherein each yarn feeding plate A44 is provided with a conveying wheel A45 and a passing coil A46 positioned above the passing spool A33; the rotating frame A31 is provided with a fixed shaft A35 in a penetrating way, the fixed shaft A35 is provided with a penetrating hole A36, and the first yarn passes through the penetrating hole A36 and is conveyed to the thread passing shaft A33; the first yarn feeding assemblies A2 are three, the bottom of each rotary disk A21 is fixedly connected with a first gear sleeve, a first motor A24 is arranged on the stranding frame A1, and the first motor A24 drives the first gear sleeve to rotate through a first belt A25; the second yarn feeding component A3 is provided with three, the bottom of each rotating frame A31 is fixedly connected with a second gear sleeve A37, a fixed shaft A35 penetrates through the second gear sleeve A37, a bearing is arranged between the fixed shaft A35 and the second gear sleeve A37, a second motor A38 is arranged on the strand manufacturing frame A1, the second motor A38 drives the second gear sleeve A37 to rotate through a second belt A39, at least two supporting plates A5 are arranged above the rotating frame A31, a supporting frame A51 is arranged at the position, corresponding to the supporting plates A5, on the strand manufacturing frame A1, a bearing outer ring A52 is arranged on the supporting frame A51, a bearing inner ring A53 fixedly connected with the supporting plates A5 is arranged in the bearing outer ring A52, one side, which is positioned on the rotating frame A31, of the second yarn cylinder A32 is provided with a speed reducing wheel A6, a fixed block A61 is arranged on the rotating frame A31, a speed reducing rope A62 which penetrates through the speed reducing wheel A6 is adjustably arranged, the second strand manufacturing frame A4 is connected with a driving wheel B14 through a belt B5, the driving wheel B14 is coaxially connected with the driving wheel B14, the driving wheel B15 is coaxially connected with a driving sprocket B15, the driving sprocket B16B is coaxially connected with a driven sprocket 18B through a driving sprocket 16B, the driving sprocket 18B is coaxially meshed with the driving sprocket 18B, the driven gear B10 is connected with a transverse transmission shaft B20, the transverse transmission shaft B20 drives a vertical transmission shaft B22 to rotate through a bevel gear structure B21, the vertical transmission shaft B22 is connected with a mounting plate B23 used for supporting a receiving bucket C1, a second driving chain wheel B24 is arranged on the vertical transmission shaft B22, the second driving chain wheel B24 is connected with a second driven chain wheel B26 through a second chain B25, the second driven chain wheel B26 is connected with a rotating rod C2, an outer bucket C9 is arranged on the outer side of the receiving bucket C1, a fixing plate C10 is arranged on the side edge of the receiving bucket C1, a pulley C11 mounted on the fixing plate C10 is arranged between the receiving bucket C1 and the outer bucket C9, and the mounting plate C4 is arranged on the fixing plate C10.

In the present invention, the first yarn, i.e., the core yarn, is unwound from the first yarn feeding assembly A2 and enters the second yarn feeding assembly A3 through the perforation a36 of the fixed shaft a35, and then the core yarn enters the through-bobbin a33, wherein the core yarn may be transferred to the through-bobbin a33 through the guide wheel (not shown). Simultaneously, the second yarns are unwound from the second yarn packages a32, and a plurality of groups of second yarns enter the corresponding yarn passing rods a34 and are wound on the core yarns, thereby completing the manufacture of the folded yarns. Wherein, the rotary disk A21 and the rotary frame A31 can rotate when the core yarn and the second yarn are unreeled, so that the manufacture of the strand can be realized. Further, by arranging the first bobbin a23 and the second bobbin a32 in the lateral direction, even if the yarn quality on the first bobbin a23 and the second bobbin a32 is reduced, the normal unreeling of the yarn and the quality of the yarn strand production are not affected. The arrangement of the bearing outer ring A52 and the bearing inner ring A53 ensures that the rotating frame A31 rotates more stably and smoothly. After the yarn is manufactured in each second yarn feeding assembly A3, each yarn passes through the passing coil a46 and the conveying wheel a45 on the corresponding yarn feeding plate a44 and is conducted to the wire bundling wheel a41, and each yarn is conducted by the wire bundling wheel a41, is transferred to the corresponding roller a43 and is matched with the stranding and twisting mechanism B100 to finish stranding a plurality of yarns, and in the embodiment of the invention, the yarns are in three groups. In the stranding and rope rolling mechanism B100, the belt wheel B6 is driven by a rope rolling motor to rotate the rotating frame B2, the driving wheel B12 and the worm and gear structure B13 can rotate a single rope rolling wheel B9, and the driven teeth B10 and the driving teeth B11 can rotate a plurality of rope rolling wheels B9 in a matched mode. So arranged, with the rotation of the rotating frame B2 and the twisting wheel B9, a twisting of three strands, in particular, three strands conducted by the corresponding roller a43, is achieved, and when transferred onto the twisting wheel B9, the twisting is already completed, i.e. the three strands are twisted into a new strand. Then, the stranded wires pass through the driven wheel C6 and the driving wheel C3, enter the wire passing hole C5, pass through the space between the wire collecting wheel C7 and the auxiliary wheel C8, and finally enter the material collecting barrel C1. Wherein, by the rotation of second motor A38 alright indirectly drive dwang C2 and receipts storage bucket C1, dwang C2 rotates and can provide the rotation force for action wheel C3, and receive the rotation of storage bucket C1 can be at the conduction in-process to the folded wire, cooperation stranding mechanism B100 for twine to the folded wire inseparabler, in order to further improve the quality of folded wire stranding. And the arrangement of the outer barrel C9 and the pulley C11 on the fixed plate C10 can improve the rotation stability of the material receiving barrel C1 and also enable the material receiving barrel C1 to have good support.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (9)

1. A rope tying machine, comprising:

The strand making mechanism comprises a strand making rack, a first yarn feeding assembly arranged on the strand making rack, a second yarn feeding assembly positioned above the first yarn feeding assembly, at least one first yarn feeding assembly is arranged on the first yarn feeding assembly, at least one second yarn feeding assembly is arranged on the second yarn feeding assembly, each second yarn feeding assembly comprises a rotating disc, a yarn feeding frame arranged on the rotating disc and a first yarn barrel rotationally arranged on the yarn feeding frame, the first yarn barrel is transversely arranged on the yarn feeding frame, each second yarn feeding assembly comprises a rotating frame, a second yarn barrel rotationally arranged on the rotating frame, a yarn passing shaft arranged on the rotating frame and used for allowing the first yarn unreeled by the first yarn barrel to pass through, a plurality of yarn passing rods circumferentially arranged on the rotating frame and positioned on the outer side of the yarn passing shaft, each yarn passing rod is transversely arranged on the rotating frame and used for passing the second yarn unreeled by the second yarn barrels, and a plurality of groups of second yarns are wound on the first yarn barrels to obtain strands;

The stranding and rope rolling mechanism is arranged on one side of the stranding mechanism and comprises a mounting frame, a rotating frame arranged on the mounting frame, and a first rope rolling motor and a second rope rolling motor which are arranged on the mounting frame, wherein the first rope rolling motor and the second rope rolling motor drive belt pulleys to rotate through belts, the belt pulleys are connected with the mounting frame through belt wheel shafts, a plurality of rope rolling wheels are rotatably arranged on the rotating frame, driven teeth are sleeved at the end parts of the rope rolling wheels, transmission teeth matched with the driven teeth are arranged between two adjacent rope rolling wheels, and the first rope rolling motor or the belt pulleys are connected with transmission wheels through belts and drive the rope rolling wheels to rotate through worm and gear structures;

The material collecting mechanism comprises a material collecting barrel which is rotatably arranged, a rotating rod which is arranged on one side of the material collecting barrel, and a driving wheel which is arranged on the rotating rod and is in linkage fit with the rotating rod, wherein a mounting plate is arranged above the material collecting barrel, a wire passing hole is formed in the mounting plate, a driven wheel is arranged below the wire passing hole on the mounting plate, a wire collecting wheel which is coaxially connected with the driven wheel is arranged on the mounting plate, and an auxiliary wheel which is arranged opposite to the wire collecting wheel is arranged on the mounting plate.

2. The rope tying machine according to claim 1, wherein the strand machine frame is provided with a wire tying assembly, the wire tying assembly comprises a wire tying wheel, a roller frame provided with rollers and yarn feeding plates arranged on the outer side of the wire tying wheel and corresponding to the second yarn feeding assembly, and each yarn feeding plate is provided with a conveying wheel and a passing coil above the passing spool.

3. A rope machine according to claim 1 or 2, characterized in that the rotating frame is provided with a stationary shaft through which the first yarn passes and is conveyed to the passing spool.

4. A rope tying machine according to claim 3, wherein the first yarn feeding assembly is provided with three, the bottom of each rotary disc is fixedly connected with a first gear sleeve, the strand making frame is provided with a first motor, and the first motor drives the first gear sleeve to rotate through a first belt.

5. A rope tying machine according to claim 3, wherein the second yarn feeding assembly is provided with three, the bottom of each rotating frame is fixedly connected with a second gear sleeve, the fixed shaft is arranged in the second gear sleeve in a penetrating way, a bearing is arranged between the fixed shaft and the second gear sleeve, a second motor is arranged on the strand making frame, and the second motor drives the second gear sleeve to rotate through a second belt.

6. The rope tying machine according to claim 5, wherein at least two supporting plates are arranged above the rotating frame, a supporting frame is arranged at a position corresponding to the supporting plates on the strand making frame, a bearing outer ring is arranged on the supporting frame, and a bearing inner ring fixedly connected with the supporting plates is arranged in the bearing outer ring.

7. The rope tying machine according to claim 1, wherein a speed reducing wheel is provided on one side of the rotary frame on the second bobbin, a fixed block is provided on the rotary frame, and a speed reducing rope passing through the speed reducing wheel is adjustably provided on the fixed block.

8. The rope tying machine according to claim 1, wherein the second rope rolling motor is connected with a driving wheel through a belt, the driving wheel is coaxially connected with a first driving sprocket, the first driving sprocket is connected with a first driven sprocket through a first chain, the first driven sprocket is coaxially connected with a driving gear, the driving gear is meshed with a driven gear, the driven gear is connected with a transverse transmission shaft, the transverse transmission shaft drives a vertical transmission shaft to rotate through a bevel gear structure, the vertical transmission shaft is connected with a mounting plate for supporting a receiving barrel, a second driving sprocket is arranged on the vertical transmission shaft, the second driving sprocket is connected with a second driven sprocket through a second chain, and the second driven sprocket is connected with a rotating rod.

9. The rope tying machine according to claim 8, wherein an outer barrel is arranged on the outer side of the material collecting barrel, a fixing plate is arranged on the side edge of the material collecting barrel, a pulley arranged on the fixing plate is arranged between the material collecting barrel and the outer barrel, and the mounting plate is arranged on the fixing plate.