CN110965378A

CN110965378A - Straw rope making machine assembly line

Info

Publication number: CN110965378A
Application number: CN201911172202.3A
Authority: CN
Inventors: 李德然
Original assignee: Zhejiang Ocean University ZJOU
Current assignee: Zhejiang Ocean University ZJOU
Priority date: 2019-11-26
Filing date: 2019-11-26
Publication date: 2020-04-07
Anticipated expiration: 2039-11-26
Also published as: CN110965378B

Abstract

The invention provides a straw rope making machine assembly line, which comprises a rope weaving mechanism, a bundling mechanism and a shearing mechanism on a rack in sequence, wherein a discharging platform and two long feeding pipes are arranged at the head end of the rope weaving mechanism, the long feeding pipes are connected with a bell mouth, the bell mouth is provided with a grass feeding gear, a rear trigonal cone and an oblique tooth transmission paddle, the trigonal cone is provided with an inner ring gear, the inner ring gear is meshed with the two grass feeding gears, the oblique tooth transmission paddle is provided with a plurality of blades and a helical gear, the blades are in poking connection with the trigonal cone, one end of a transmission shaft is fixedly sleeved with a main gear, the other end of the transmission shaft is fixedly sleeved with a secondary gear, the main gear is meshed with the helical gear, two end parts of two rope twisting rotary rods are respectively meshed and connected through paired large gears, one of the large gears is meshed with the secondary gear, a rope winder comprises gear blocking discs on two sides and a rope winding conical pipe in the middle, the gear, the rotating frame is fixedly provided with a large wheel disc, the motor drives a small belt wheel, and the small belt wheel is connected with a large wheel disc transmission belt.

Description

Straw rope making machine assembly line

Technical Field

The invention belongs to the technical field of machinery, relates to a rope making system, and particularly relates to a straw rope making machine assembly line.

Background

At present domestic mussel breeding in-process, the mussel can be generally tied and hang on aquatic owner rope through growing seedlings the back, and it is loaded down with trivial details and time-consuming to carry out the operation process of picking, hardly has work efficiency to accomplish to pick totally hardly, lead to the filth that carries on the mussel more, influence processing work on next step, the rope body also can form new pollution to the environment with the filth in addition.

If adopt the straw rope material to carry out mussel breed, according to straw autolysis degradation characteristic and mussel biodiversity principle, carry out direct results with mussel cluster cooperation mussel rubbing machine and rub processing with the hands, reach green, energy-conserving efficient theme from this. Therefore, the creation of the straw rope manufacturing equipment becomes the primary task of the mussel environment-friendly culture.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a straw rope making machine assembly line which utilizes a single power source, divides a multi-path transmission structure into two strands of transmission force and realizes automatic rope twisting, bundling and shearing.

The purpose of the invention can be realized by the following technical scheme: a straw rope making machine assembly line comprises a rack, wherein a rope weaving mechanism, a bundling mechanism and a shearing mechanism are sequentially arranged on the rack from a head end to a tail end, the rope weaving mechanism, the bundling mechanism and the shearing mechanism are connected through a transmission rail, the rope weaving mechanism comprises a discharging platform, two long feeding pipes are arranged on the discharging platform, discharging ports of the long feeding pipes are connected with a horn mouth capable of rotating, a grass feeding gear is arranged at the discharging port of the horn mouth, the two grass feeding gears are arranged in a gathering mode, a rotating body transmission assembly is arranged behind the two grass feeding gears and comprises a triangular body and an oblique tooth transmission paddle, the triangular body is a conical frame with multiple windows, an inner ring gear is arranged in the large end of the conical frame and is meshed with the two grass feeding gears, the oblique tooth transmission paddle is provided with a hollow channel, and one end of the oblique tooth transmission paddle is uniformly provided with multiple blades, the other end is provided with a helical gear, the blades are inserted into a plurality of windows of the trigonal pyramid in a one-to-one correspondence manner to form a poking connection, the frame is further provided with a rotating frame, one end of the rotating frame is hinged on the frame through a bearing, the other end of the rotating frame is fixedly connected with the end of the helical gear, the rotating frame is hinged with a transmission shaft, one end of the transmission shaft is fixedly sleeved with a main gear, the other end of the transmission shaft is fixedly sleeved with a pinion, the main gear is meshed with the helical gear, the rotating frame is further hinged with a pair of rope twisting rotary rods, a rope twisting gap is formed between the two rope twisting rotary rods, the two end parts of the two rope twisting rotary rods are respectively meshed and connected through a pair of large gears, one large gear is meshed with the pinion, the rotating frame is further hinged with a rope winder, the rope winder comprises gear blocking discs on two sides and a rope twisting taper pipe in the middle, and the, the tail end of the rotating frame is fixedly provided with a large wheel disc, the center of the large wheel disc is provided with a rope outlet through hole, the rack is provided with a rope twisting motor, a driving shaft of the rope twisting motor is fixedly connected with a small belt wheel, and the small belt wheel is connected with the large wheel disc through a driving belt;

the strapping mechanism comprises a strapping frame, a set top box and a strapping tape box are arranged at the top of the strapping frame, a sensor and a strapping timer which are mutually connected through electric signals are arranged in the set top box, an induction probe of the sensor extends out from the bottom wall of the set top box, a strapping tape reel is hinged in the strapping tape box, two fixing chucks are symmetrically arranged on the front side and the rear side of the strapping frame, each fixing chuck comprises two clamping jaws which are rotatably hinged, the clamping jaws are driven and connected by a strapping motor to form a clamping action, the strapping timer controls the strapping motor through a circuit, a lower strap pipeline is arranged on each fixing chuck, and a strapping tape on the strapping tape reel extends out of the lower strap pipeline to enter the strapping machine;

the shearing mechanism includes the support column, set up the actuating cylinder on the support column, the lift arm is connected to the actuating lever of actuating cylinder, the lower extreme of lift arm sets up the holder, it has the section to articulate on the holder, the section is rotatory by shearing motor drive, the sliced below is for cuting the station, the side of cuting the station sets up die clamping cylinder, link firmly tight piece on die clamping cylinder's the telescopic link, die clamping cylinder is by the automatically controlled connection of clamping controller, the shearing mechanism still sets up the shearing timer, the shearing timer pass through the signal of telecommunication with actuating cylinder, shearing motor, clamping controller all form the control connection.

In this grass rope system rope machine assembly line, the function mode of braid mechanism does, starts to twist with fingers the rotation of rope motor drive little band pulley, drives big rim plate through the drive belt and rotates to make the synchronous rotation of whole rotation frame, further drive skewed tooth transmission oar and rotate, a plurality of oar pieces of skewed tooth transmission oar head end stir the rotation of trigonometry pyramid when rotating, and the trigonometry pyramid passes through the tooth meshing and drives two and advance the directional rotations of grass gear. The helical gear of the helical gear transmission paddle rotates, the main gear is driven to rotate through meshing, the auxiliary gear synchronously rotates due to coaxiality, the auxiliary gear drives the pair of rope twisting rotary rods to rotate through meshing connection, and the rope twisting rotary rods further drive the rope winder to rotate through meshing transmission of the large gear and the small gear set after rotating.

The rope manufacturing method of the rope weaving mechanism comprises two methods, the first method is that forage is placed on a discharging platform, divided into two small strands which respectively penetrate into two long feeding pipes, the small strands of the forage further enter into a bell mouth, pre-rubbing under the action of the rotating force of the grass inlet gear and the fixed pipe wall, combining two small strands of grass ropes into a large strand of grass rope after extending out of the grass inlet gear, enabling the large strand of grass rope to enter a hollow channel of the helical tooth transmission paddle, enabling the large strand of grass rope to enter a twisting rope gap between two twisting rope rotating rods from the helical tooth transmission paddle, because the pair of rope twisting rotary rods are driven by the rotary frame to continuously rotate, the rotary force is utilized to twist two small strands of grass ropes into a large strand of grass rope, the pair of rope twisting rotary rods mainly has the rope pressing and fastening effects, the tensile strength of the rope is improved, and the like, after rope twisting is finished, the end of the big-strand straw rope is clamped on the rope winding taper pipe, and the gear blocking disc drives the whole rope winder to rotate under meshing transmission so as to realize the winding of the big-strand straw rope. The second is, after twisting rope, the big strand of grass rope does not get into the rope winder, directly crosses the rope winder and penetrates the play rope through-hole of big rim plate to get into next manufacturing procedure. The second is the direct penetration method, which is also the method of primary application.

The bundling method of the bundling mechanism comprises the steps that when the straw ropes are conveyed to the lower portion of the bundling mechanism, the sensor senses that the straw ropes arrive at the bundling mechanism, then the bundling timer starts to count time, the straw ropes are conveyed to be 3 meters long after waiting for a period of time, the bundling timer controls the bundling motor to start to drive the fixing chucks on the front side and the rear side to clamp the straw ropes, and meanwhile the bundling machine is driven to bundle the straw ropes at the fixing chucks on the two sides. The strapping machine and its operation are well known in the art and will not be described in detail herein. The electrical connection of the sensor and the strapping timer, as well as the electrical connection of the strapping timer to the strapping motor, and the application thereof, are well within the skill of the art and will not be described in detail herein.

The cutting method of the cutting mechanism comprises the steps that when the straw rope is conveyed to the cutting mechanism, timing is controlled by a cutting timer, so that the middle parts of two sections of strapping tapes are located on a cutting station, the electric control clamping cylinder stretches out of the clamping block to press the straw rope, then the electric control lifting arm descends to enable the cutting piece to be in contact with the straw rope, meanwhile, the cutting piece is driven to rotate, the cutting edge of the cutting piece cuts off the straw rope, then the straw rope is loosened, and the cutting method of the cutting mechanism is repeated in a circulating mode and continues. The execution cylinder drives the lifting arm to drive the slice to lift, and the structure and the lifting working principle both belong to the prior art, so the detailed description is not provided in the invention. The circuit structure and control function of the clamping controller for electrically controlling the clamping cylinder are in the prior art, and therefore, the detailed description is omitted in the present invention. The shearing timer is connected with the control of the execution cylinder, the shearing motor and the clamping controller through electric signals, and the circuit and the application of the shearing timer belong to the prior art, so the shearing timer is not described in detail in the invention.

In the production line of the straw rope making machine, the inner wall of the middle pipe of the straw feeding gear is provided with threads. Under the drive of the rotation of the straw feeding gear, the straw passing through the straw feeding gear can be changed into a spiral shape by utilizing the inner wall threads.

In the production line of the straw rope making machine, one end of a middle shaft of the rope winder penetrates through the rotating frame and then is limited and clamped by a pin; the other end of the middle shaft of the winder penetrates out of the rotating frame and is fixedly connected with a loading and unloading handle. When the straw rope on the rope winder is fully wound, the pin is pulled out, and the whole rope winder is detached from the rotating frame through the assembling and disassembling handle so as to replace a new rope winding taper pipe.

In the above assembly line of the straw rope making machine, the pinion gear set comprises a plurality of pinion gears which are meshed in sequence, a rotating shaft of the last pinion gear penetrates through the rotating frame and then is fixedly sleeved with the executing gear, and the executing gear is meshed with the gear blocking disc.

In the assembly line of the straw rope making machine, the rack is provided with a fixed seat, the fixed seat is formed by splicing an upper seat and a lower seat, and the periphery of the bell mouth is sleeved with a bearing which is fixedly arranged in the fixed seat.

In the production line of the straw rope making machine, a fixing frame is arranged on the machine frame, and a bearing is sleeved on the periphery of the skewed tooth transmission paddle and is fixedly arranged in the fixing frame.

In the assembly line of the straw rope making machine, the long feeding pipe is a conical pipe, a large opening of the conical pipe faces the material placing platform, and a small opening of the conical pipe extends and is connected with the horn mouth.

In the production line of the straw rope making machine, the front end of the driving shaft of the bundling motor is directly and fixedly connected with one clamping jaw, the driving shaft of the bundling motor is further sleeved with a first clamping gear, the other clamping jaw is fixedly connected with a second clamping gear, and the first clamping gear is in meshed connection with the second clamping gear. After the binding motor is started, the clamping jaws directly and fixedly connected with the driving shaft of the binding motor rotate in the forward direction, and the clamping jaws meshed and connected with the binding motor through the first clamping gear and the second clamping gear rotate in the reverse direction, so that the action that the two clamping jaws clamp towards the middle is formed.

In the production line of the straw rope making machine, the transmission rail between the rope weaving mechanism and the bundling mechanism is a bent rail, and the bent rail consists of a rail bottom wall and a rail side wall.

In the assembly line of the straw rope making machine, the transmission track between the bundling mechanism and the shearing mechanism is a straight track, the straight track comprises blocking walls on two sides, and a row of rollers are hinged between the blocking walls on the two sides.

Compared with the prior art, the production line of the herbal rope making machine has the following advantages:

1. the rope making equipment is simple and reasonable in overall structure, convenient to operate and use and capable of improving working efficiency.

2. The working procedures such as material refining, rope making and the like are integrally connected, so that the rope making and forming production operation of the straw rope product is realized.

3. The process is uniform in production and processing, the labor intensity of workers is reduced, the working efficiency is improved, and a large amount of manpower and material resources are saved.

Drawings

Fig. 1 is a perspective view of the overall structure of the production line of the herbal rope making machine.

Fig. 2 is a schematic front view structure diagram of a rope weaving mechanism in a production line of the herbal rope making machine.

Fig. 3 is a schematic top view of the rope weaving mechanism in the production line of the herbal rope making machine.

Fig. 4 is a schematic perspective view of a shearing mechanism in a production line of the herbal rope making machine.

In the figure, 1, a material placing platform; 2. a long feed pipe; 3. a bell mouth; 4. a grass inlet gear; 5. a triangular pyramid; 6. a paddle blade; 7. a helical gear; 8. rotating the frame; 9. a main gear; 10. a pinion gear; 11. twisting and rotating the rod; 12. a bull gear; 13. a pinion gear; 14. an execution gear; 15. a gear plate; 16. rope winding taper pipes; 17. a pin; 18. assembling and disassembling a handle; 19. a large wheel disc; 20. a transmission belt; 21. a small belt pulley; 22. a rope twisting motor; 23. a curved track; 24. bundling a frame; 25. a strapping box; 26. a set-top box; 27. fixing the chuck; 28. a lower belt pipeline; 29. a roller; 30. a support pillar; 31. an actuating cylinder; 32. lifting the arm; 33. a holder; 34. slicing; 35. a clamping controller; 36. and tightening the cylinder.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 3, the herbal rope-making machine assembly line comprises a frame, a rope weaving mechanism, a bundling mechanism and a shearing mechanism are sequentially arranged on the frame from a head end to a tail end, the rope weaving mechanism, the bundling mechanism and the shearing mechanism are connected through a transmission rail, the rope weaving mechanism comprises a frame, a material placing platform 1 is arranged at the head end of the frame, two long feeding pipes 2 are arranged on the material placing platform 1, discharge ports of the long feeding pipes 2 are connected with a bell mouth 3 capable of rotating, a grass feeding gear 4 is arranged at the discharge port of the bell mouth 3, the two grass feeding gears 4 are arranged in a gathering manner, a rotating body transmission assembly is arranged behind the two grass feeding gears 4 and comprises a triangular cone 5 and an oblique tooth transmission paddle, the triangular cone 5 is a conical frame with multiple windows, an inner ring gear is arranged in a large end of the conical frame, the inner ring gear is meshed with the two grass feeding gears 4, the oblique tooth transmission has a hollow channel, one end of the helical gear transmission paddle is uniformly provided with a plurality of blades 6, the other end is provided with a helical gear 7, the blades 6 are correspondingly inserted into a plurality of windows of a triangular cone 5 one by one to form toggle connection, the frame is also provided with a rotating frame 8, one end of the rotating frame 8 is hinged on the frame through a bearing, the other end is fixedly connected with the end of the helical gear 7, the rotating frame 8 is hinged with a transmission shaft, one end of the transmission shaft is fixedly sleeved with a master gear 9, the other end is fixedly sleeved with a pinion 10, the master gear 9 is meshed with the helical gear 7, the rotating frame 8 is also hinged with a pair of rope twisting rotary rods 11, a rope twisting gap is formed between the two rope twisting rotary rods 11, two end parts of the two rope twisting rotary rods 11 are respectively meshed and connected through a pair of big gears 12, one big gear 12 is meshed with the pinion 10, the rotating frame 8 is also hinged with a rope winder, the rope winder comprises gear, the gear blocking disc 15 and the large gear 12 are in meshing transmission connection through a small gear set, a large wheel disc 19 is fixedly arranged at the tail end of the rotating frame 8, a rope outlet through hole is formed in the center of the large wheel disc 19, a rope twisting motor 22 is arranged on the rack, a driving shaft of the rope twisting motor 22 is fixedly connected with a small belt wheel 21, and the small belt wheel 21 is connected with the large wheel disc 19 through a driving belt 20.

In this grass rope system rope machine assembly line, the function mode of braiding mechanism does, starts to twist with fingers the rope motor 22 and drives little band pulley 21 and rotate, drives big rim plate 19 through drive belt 20 and rotates to make whole rotation frame 8 synchronous rotation, further drive skewed tooth transmission oar and rotate, a plurality of oar pieces 6 of skewed tooth transmission oar head end stir three square cones 5 rotations when rotating, and three square cones 5 drive two through the tooth meshing and advance the directional rotation of grass gear 4. The helical gear 7 of the helical gear transmission paddle rotates, the main gear 9 is driven to rotate through meshing, the auxiliary gear 10 synchronously rotates due to coaxiality, the auxiliary gear 10 drives the pair of rope twisting rotary rods 11 to rotate through meshing connection, and the rope twisting rotary rods 11 rotate and then further drive the rope winder to rotate through meshing transmission of the large gear 12 and the small gear set.

The rope-making method of the rope-braiding mechanism comprises two methods, the first method is that the forage is placed on the material-placing platform 1, and is divided into two small strands which are respectively penetrated into two long material-feeding pipes 2, the small strands of the forage rope further enter the bell mouth 3, and are pre-twisted under the action of the rotating force of the grass-feeding gear 4 and the fixed pipe wall, after the small strands of the forage rope extend out of the grass-feeding gear 4, the two small strands of the forage rope are combined into a large strand of the forage rope to enter the hollow channel of the skewed tooth driving paddle, and then the forage rope is discharged from the skewed tooth driving paddle to enter the rope-twisting gap between the two rope-twisting rotating rods 11, because the pair of rope-twisting rotating rods 11 is driven by the rotating frame 8 to continuously rotate, the two small strands of the forage rope are twisted into a large straw rope by utilizing the rotating force, the pair of rope-twisting rotating rods 11 mainly has the function of pressing and fastening function, the tensile strength of the rope is improved, after the rope twisting, the end of the large strand, so as to realize the winding of the large-strand straw rope. The second is that after twisting the rope, the big strand of grass rope does not enter the rope winder, and directly crosses the rope winder and penetrates into the rope outlet through hole of the big wheel disc 19 to enter the next processing procedure. The second is the direct penetration method, which is also the method of primary application.

The inner wall of the middle pipe of the grass inlet gear 4 is provided with threads. Under the rotation of the straw inlet gear 4, the straw passing through the straw inlet gear can be changed into a spiral shape by utilizing the inner wall threads.

One end of the middle shaft of the rope winder penetrates through the rotating frame 8 and then is limited and clamped by a pin 17; the other end of the middle shaft of the winder penetrates through the rotating frame 8 and is fixedly connected with a loading and unloading handle 18. When the straw rope on the rope winder is fully wound, the pin 17 is pulled out, and the whole rope winder is detached from the rotating frame 8 from the assembling and disassembling handle 18 so as to replace the rope winding taper pipe 16 with a new one.

The pinion group comprises a plurality of sequentially meshed pinions 13, a rotating shaft of the last pinion 13 penetrates through the rotating frame 8 and is fixedly sleeved with an executing gear 14, and the executing gear 14 is meshed and connected with a gear baffle disc 15.

The frame is provided with a fixed seat, the fixed seat is formed by splicing an upper seat and a lower seat, and the periphery of the horn mouth 3 is sleeved with a bearing which is fixedly arranged in the fixed seat.

The rack is provided with a fixed frame, and the periphery of the helical tooth transmission paddle is sleeved with a bearing which is fixedly arranged in the fixed frame.

The long feeding pipe 2 is a conical pipe, the large opening of the conical pipe faces the material placing platform 1, and the small opening extends to be connected with the bell mouth 3.

The binding mechanism comprises a binding frame 24, a set top box 26 and a binding tape box 25 are arranged at the top of the binding frame 24, a sensor and a binding timer which are mutually connected through electric signals are arranged in the set top box 26, an induction probe of the sensor extends out from the bottom wall of the set top box 26, a binding tape reel is hinged in the binding tape box 25, two fixing clamping heads 27 are symmetrically arranged on the front side and the rear side of the binding frame 24, each fixing clamping head 27 comprises two clamping jaws which are rotatably hinged, the clamping jaws are connected through a binding motor in a driving mode to form a clamping action, the binding timer controls the binding motor through a circuit, a lower tape pipeline 28 is arranged on each fixing clamping head 27, and a binding tape on the binding tape reel extends out.

The bundling method of the bundling mechanism comprises the steps that when the straw ropes are conveyed to the bundling mechanism, the sensor senses the arrival of the straw ropes, then the bundling timer starts to count time, the straw ropes are conveyed to be 3 meters long after waiting for a period of time, the bundling timer controls the bundling motor to start to drive the fixing clamp heads 27 on the front side and the rear side to clamp the straw ropes, and meanwhile, the bundling machine is driven to bundle the straw ropes at the fixing clamp heads 27 on the two sides. The strapping machine and its operation are well known in the art and will not be described in detail herein. The electrical connection of the sensor and the strapping timer, as well as the electrical connection of the strapping timer to the strapping motor, and the application thereof, are well within the skill of the art and will not be described in detail herein.

The front end of a driving shaft of the bundling motor is directly fixedly connected with a clamping jaw, a first clamping gear is sleeved on the driving shaft of the bundling motor, a second clamping gear is fixedly connected on the other clamping jaw, and the first clamping gear is meshed with the second clamping gear. After the binding motor is started, the clamping jaws directly and fixedly connected with the driving shaft of the binding motor rotate in the forward direction, and the clamping jaws meshed and connected with the binding motor through the first clamping gear and the second clamping gear rotate in the reverse direction, so that the action that the two clamping jaws clamp towards the middle is formed.

The shearing mechanism comprises a supporting column 30, an execution cylinder 31 is arranged on the supporting column 30, an execution rod of the execution cylinder 31 is connected with a lifting arm 32, a retainer 33 is arranged at the lower end of the lifting arm 32, a slice 34 is hinged to the retainer 33 and driven to rotate by a shearing motor, a shearing station is arranged below the slice 34, a clamping cylinder is arranged beside the shearing station, a clamping block is fixedly connected to a telescopic rod of the clamping cylinder, the clamping cylinder is electrically controlled and connected by a clamping controller 35, a shearing timer is further arranged on the shearing mechanism, and the shearing timer is in control connection with the execution cylinder 31, the shearing motor and the clamping controller 35 through electric signals.

The cutting method of the cutting mechanism comprises the steps that when the straw rope is conveyed to the cutting mechanism, timing is controlled by a cutting timer, so that the middle parts of two sections of strapping tapes are located on a cutting station, the electric control clamping cylinder stretches out of the clamping block to press the straw rope, then the electric control lifting arm 32 descends to enable the slice 34 to be in contact with the straw rope, meanwhile, the slice 34 is driven to rotate, the straw rope is cut off through the cutting edge of the slice 34, then the straw rope is loosened, and the operation is repeated in a circulating mode and is continued. The actuating cylinder 31 drives the lifting arm 32 to drive the slice 34 to perform a lifting operation, and the structure and the lifting operation principle are in the prior art, so that the detailed description is omitted in the present invention. The circuit structure and control function of the clamping controller 35 for electrically controlling the connection of the clamping cylinder are in the prior art, and therefore, will not be described in detail in the present invention. The shearing timer is connected with the control of the execution cylinder 31, the shearing motor and the clamping controller 35 through electric signals, and the circuit and the application of the shearing timer belong to the prior art, so the circuit and the application are not described in detail in the invention.

The transmission track between the rope weaving mechanism and the bundling mechanism is a bent track 23, and the bent track 23 consists of a track bottom wall and a track side wall. The transmission track between the bundling mechanism and the shearing mechanism is a straight track, the straight track comprises blocking walls positioned on two sides, and a row of rollers 29 are hinged between the blocking walls on the two sides.

The production line of the straw rope making machine has the following advantages:

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the emptying platform 1 is used more here; a long feed pipe 2; a bell mouth 3; a grass inlet gear 4; a trigonal pyramid 5; a paddle 6; a helical gear 7; a rotating frame 8; a main gear 9; a pinion 10; a rope-twisting rotating rod 11; a bull gear 12; a pinion gear 13; an execution gear 14; a gear plate 15; a rope winding taper pipe 16; a pin 17; a loading and unloading handle 18; a large wheel disc 19; a transmission belt 20; a small pulley 21; a rope twisting motor 22; a curved rail 23; a strapping frame 24; a strapping case 25; a set-top box 26; a fixed chuck 27; a lower belt line 28; a roller 29; a support column 30; the execution cylinder 31; a lifting arm 32; a cage 33; a slice 34; a clamp controller 35; clamping the cylinder 36, etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. A straw rope making machine assembly line comprises a rack, wherein a rope weaving mechanism, a bundling mechanism and a shearing mechanism are sequentially arranged on the rack from a head end to a tail end, and are connected through a transmission rail, and the straw rope making machine assembly line is characterized in that the rope weaving mechanism comprises a material discharging platform, two long material feeding pipes are arranged on the material discharging platform, discharge ports of the long material feeding pipes are connected with a horn mouth capable of rotating, a grass feeding gear is arranged at the discharge port of the horn mouth, the two grass feeding gears are gathered, a rotating body transmission assembly is arranged behind the two grass feeding gears and comprises a triangular body and an oblique tooth transmission paddle, the triangular body is a conical frame with multiple windows, a gear is arranged in the large end of the conical frame, an inner ring gear is meshed with the two grass feeding gears and is connected with the oblique tooth transmission paddle, the oblique tooth transmission paddle is provided with a hollow channel, one end of the helical gear transmission paddle is uniformly provided with a plurality of blades, the other end of the helical gear transmission paddle is provided with a helical gear, the blades are correspondingly inserted into a plurality of windows of the triangular cone body one by one to form toggle connection, the rack is also provided with a rotating frame, one end of the rotating frame is hinged on the rack through a bearing, the other end of the rotating frame is fixedly connected with the end of the helical gear, the rotating frame is hinged with a transmission shaft, one end of the transmission shaft is fixedly sleeved with a main gear, the other end of the transmission shaft is fixedly sleeved with a secondary gear, the main gear is meshed with the helical gear, the rotating frame is also hinged with a pair of rope twisting rotary rods, a rope twisting gap is formed between the two rope twisting rotary rods, two end parts of the two rope twisting rotary rods are respectively meshed and connected through paired large gears, one large gear is meshed with the secondary gear, the rotating frame is also hinged with a rope winder, the rope winder comprises, the gear baffle disc and the large gear are in meshing transmission connection through a small gear set, a large wheel disc is fixedly arranged at the tail end of the rotating frame, a rope outlet through hole is formed in the center of the large wheel disc, a rope twisting motor is arranged on the rack, a driving shaft of the rope twisting motor is fixedly connected with a small belt wheel, and the small belt wheel is connected with the large wheel disc through a driving belt; the strapping mechanism comprises a strapping frame, a set top box and a strapping tape box are arranged at the top of the strapping frame, a sensor and a strapping timer which are mutually connected through electric signals are arranged in the set top box, an induction probe of the sensor extends out from the bottom wall of the set top box, a strapping tape reel is hinged in the strapping tape box, two fixing chucks are symmetrically arranged on the front side and the rear side of the strapping frame, each fixing chuck comprises two clamping jaws which are rotatably hinged, the clamping jaws are driven and connected by a strapping motor to form a clamping action, the strapping timer controls the strapping motor through a circuit, a lower strap pipeline is arranged on each fixing chuck, and a strapping tape on the strapping tape reel extends out of the lower strap pipeline to enter the strapping machine; the shearing mechanism includes the support column, set up the actuating cylinder on the support column, the lift arm is connected to the actuating lever of actuating cylinder, the lower extreme of lift arm sets up the holder, it has the section to articulate on the holder, the section is rotatory by shearing motor drive, the sliced below is for cuting the station, the side of cuting the station sets up die clamping cylinder, link firmly tight piece on die clamping cylinder's the telescopic link, die clamping cylinder is by the automatically controlled connection of clamping controller, the shearing mechanism still sets up the shearing timer, the shearing timer pass through the signal of telecommunication with actuating cylinder, shearing motor, clamping controller all form the control connection.

2. The straw rope making machine assembly line of claim 1, wherein threads are tapped on the inner wall of the middle pipe of the straw feeding gear.

3. The straw rope making machine assembly line of claim 1, wherein one end of the center shaft of the rope winder penetrates through the rotating frame and then is limited and clamped by a pin; the other end of the middle shaft of the winder penetrates out of the rotating frame and is fixedly connected with a loading and unloading handle.

4. The straw rope making machine assembly line according to claim 1, wherein the pinion gear set comprises a plurality of pinions which are meshed in sequence, a rotating shaft of the last pinion penetrates through the rotating frame and then is fixedly sleeved with an execution gear, and the execution gear is meshed with the gear blocking disc.

5. The straw rope making machine assembly line according to claim 1, wherein a fixed seat is arranged on the machine frame, the fixed seat is formed by splicing an upper seat and a lower seat, and a bearing is sleeved on the periphery of the bell mouth and fixedly arranged in the fixed seat.

6. The assembly line of the straw rope making machine according to claim 1, wherein a fixed frame is arranged on the machine frame, and a bearing is sleeved on the periphery of the skewed tooth transmission paddle and fixedly arranged in the fixed frame.

7. The assembly line of the straw rope making machine according to claim 1, wherein the long feeding pipe is a conical pipe, a large opening of the conical pipe faces the discharging platform, and a small opening of the conical pipe extends to be connected with the bell opening.

8. The straw rope making machine assembly line according to claim 1, wherein a first clamping gear is fixedly connected to a front end of a driving shaft of the bundling motor, a second clamping gear is fixedly connected to the other clamping jaw, and the first clamping gear is in meshed connection with the second clamping gear.

9. The straw rope twine machine assembly line of claim 1, wherein the transfer track between the twine mechanism and the strapping mechanism is a curved track, the curved track comprising a track bottom wall and a track side wall.

10. The straw rope machine line of claim 1, wherein the transfer track between the tying mechanism and the shearing mechanism is a straight track comprising two side walls between which a row of rollers is articulated.