CN112173243A

CN112173243A - Automatic yarn section of thick bamboo package assembly that diolame was tightened up

Info

Publication number: CN112173243A
Application number: CN202011213387.0A
Authority: CN
Inventors: 江涛
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-04
Filing date: 2020-11-04
Publication date: 2021-01-05

Abstract

The invention relates to the technical field of yarn barrel packaging, in particular to a yarn barrel packaging assembly capable of automatically enveloping and tightening, which comprises: a frame; a mounting frame; a yarn bobbin feeding assembly; a material moving component; the thermal shrinkage film feeding assembly is positioned beside a thermal shrinkage film feeding station of the yarn barrel feeding assembly; the thermal shrinkage film mounting assembly is arranged on the mounting frame and is positioned between the rack and the thermal shrinkage film feeding assembly; the heating channel is arranged on the rack; a blanking conveyor belt; move the material subassembly and include: the chain type plane conveyor belt is horizontally arranged on the rack; the conveying support frame is fixedly arranged on a chain of the chain type plane conveying belt; the automatic film-wrapping and tightening yarn barrel packaging assembly disclosed by the invention can fully automatically perform film wrapping operation on a yarn barrel, improves the working efficiency, reduces the labor intensity of workers, and avoids the yarn barrel from being scattered in the transportation process by tightly attaching the heat-shrinkable film to the outer wall of the yarn barrel.

Description

Automatic yarn section of thick bamboo package assembly that diolame was tightened up

Technical Field

The invention relates to the technical field of yarn barrel packaging, in particular to a yarn barrel packaging assembly capable of automatically enveloping and tightening.

Background

The textile industry is a labor intensive and externally dependent industry in China. China is the largest textile garment production and export country in the world, and the raw materials used by textiles are mainly yarns. When the yarn bobbin is sold or exported, the yarn bobbin is generally packaged and packed. Packaging machines are the key to the development of the packaging industry, and are developing towards intellectualization, automation, high efficiency, multiple functions and low consumption.

In order to protect the white and clean yarn, when the yarn is wound on the shaft center to form a bundle, a plastic packaging film is generally sleeved and packaged outside the yarn, so that the phenomenon that the bundle is not polluted by the environment and air to cause color change or pollution can be prevented.

Among the present yarn section of thick bamboo packaging technique, some need artifically place a yarn section of thick bamboo and pack the operation in the baling press, then take out a yarn section of thick bamboo from the baling press again, this kind of artifical intensity of labour is big, and work efficiency is low, and has certain potential safety hazard, and the laminating degree of packing bag and a yarn section of thick bamboo is high inadequately among the present packaging technique, takes place the cracked risk of packing easily in the transportation, and packs volumetrically, influences the conveying efficiency.

Therefore, there is a need for a package assembly of bobbin with automatic envelope tightening that solves the above problems.

Disclosure of Invention

For solving above-mentioned technical problem, provide a yarn section of thick bamboo package assembly that automatic diolame was tightened up, this technical scheme has solved among the current yarn section of thick bamboo packaging technology, some needs are artifical to place a yarn section of thick bamboo and pack the operation in the baling press, then take out a yarn section of thick bamboo from the baling press, this kind of mode manual labor intensity is big, low working efficiency, and certain potential safety hazard has, the laminating degree of packing bag and a yarn section of thick bamboo is high inadequately among the current packaging technology, take place the cracked risk of packing easily in the transportation, and pack volumetrically, influence conveying efficiency scheduling problem.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

provided is a bobbin packaging assembly with automatic film wrapping and tightening, comprising:

a frame;

the mounting frame is arranged beside the frame;

the yarn barrel feeding assembly is arranged on the mounting frame and used for realizing the feeding process of the yarn barrel;

the material moving assembly is arranged on the rack and used for driving the yarn barrel to move so as to facilitate the movement of the yarn barrel on each station;

the thermal shrinkage film feeding assembly is arranged on the mounting frame, is positioned beside a thermal shrinkage film feeding station of the yarn barrel feeding assembly and is used for providing a thermal shrinkage film required by yarn barrel packaging;

the thermal shrinkage film mounting assembly is arranged on the mounting frame, is positioned between the rack and the thermal shrinkage film feeding assembly, and is used for mounting the thermal shrinkage film fed by the thermal shrinkage film feeding assembly on the yarn bobbin and sealing the joint of the thermal shrinkage film;

the heating channel is arranged on the rack, is positioned on one side of the rack, which is far away from the mounting rack, and is used for heating the yarn barrel after film feeding and packaging are finished, so that the thermal shrinkage film is heated and shrunk and is further clung to the yarn barrel;

the blanking conveying belt is arranged beside the frame and is used for blanking the yarn barrel after the film wrapping and shrinkage are finished;

move the material subassembly and include:

the chain type plane conveyor belt is horizontally arranged on the rack and is used for driving the yarn barrel to move along the processing direction;

the conveying support frames are sequentially arranged along the conveying direction of the chain type plane conveying belt, the conveying support frames are fixedly arranged on a chain of the chain type plane conveying belt, and the conveying support frames are used for bearing yarn bobbins so that the yarn bobbins can synchronously move along with the output end of the chain type plane conveying belt;

the steering mechanism is provided with a plurality of groups, the steering mechanism of the groups is sequentially and horizontally arranged on the conveying support frames, and the steering mechanism is used for driving the yarn barrel to steer so as to realize the feeding, discharging and processing operations of the yarn barrel.

As a preferable mode of the bobbin packaging assembly which is automatically enveloped and tightened, the steering mechanism includes:

the first servo motor is horizontally and fixedly arranged on the side wall of the conveying support frame;

the rotating shaft is horizontally arranged on the conveying support frame, and two ends of the rotating shaft are respectively in shaft connection with the side walls on two sides of the conveying support frame;

the bearing seat is arranged on the conveying support frame, is fixedly connected with the rotating shaft and is used for bearing the loaded yarn barrel;

and the limiting support column is vertically arranged at the top end of the bearing seat and is used for positioning and limiting the yarn barrel borne by the bearing seat.

As a preferable mode of the bobbin packaging assembly which is automatically enveloped and tightened, the bobbin feeding assembly comprises:

the feeding conveyor belt is horizontally arranged beside the rack, the output direction of the feeding conveyor belt is vertical to the length direction of the rack, and the tail end of the feeding conveyor belt points to the mounting rack;

the feeding inclined plate is obliquely arranged between the feeding conveyor belt and the mounting frame, one side of the feeding inclined plate, which is higher than the feeding inclined plate, is communicated with the tail end of the feeding conveyor belt, and one side of the feeding inclined plate, which is lower than the feeding inclined plate, is communicated with the mounting frame and is used for transferring a yarn barrel fed in the feeding conveyor belt onto the mounting frame;

the first pushing device is arranged on the mounting frame, the output direction of the first pushing device horizontally points to the material moving assembly and is used for pushing the yarn barrel falling onto the mounting frame to the bearing seat, and the limiting supporting column is inserted into the center of the yarn barrel so as to complete the feeding process of the yarn barrel.

As an automatic yarn section of thick bamboo package assembly's that the diolame was tightened up preferred scheme, first pusher's output is equipped with spacing post, support clamp plate and spring, spacing post level sets up and is close to the one side of moving the material subassembly at first pusher output, spacing post and spacing support column coaxial line, support the vertical fixed mounting in spacing post middle part of clamp plate, the spring level sets up at first pusher and supports between the clamp plate, the one end of spring and first pusher's output fixed connection, the other end of spring and the lateral wall fixed connection who supports the clamp plate.

As a preferable scheme of the bobbin packaging assembly automatically subjected to film wrapping and tightening, the heat-shrinkable film feeding assembly comprises:

the thermal shrinkage film mounting support is vertically arranged on the mounting frame, the length direction of the thermal shrinkage film mounting support is consistent with that of the rack, the thermal shrinkage film mounting support is positioned on one side, away from the rack, of the mounting frame, and the thermal shrinkage film mounting support is used for mounting a thermal shrinkage film cylinder so as to provide raw materials for the feeding process of the thermal shrinkage film;

the tensioning feeding mechanism is arranged on the mounting frame, is positioned on one side, close to the rack, of the thermal shrinkage film mounting bracket, and is used for tensioning the thermal shrinkage film and realizing the feeding function of the thermal shrinkage film;

and the cutting mechanism is arranged on one side of the tensioning and feeding mechanism, which is far away from the thermal shrinkage film mounting support, and is used for cutting the thermal shrinkage film output by the tensioning and feeding mechanism so as to provide single thermal shrinkage film raw materials for the subsequent packaging process of a single yarn bobbin.

As a preferable mode of the bobbin packaging assembly which is automatically enveloped and tightened, the tension feeding mechanism comprises:

the first support frame is arranged on the mounting frame;

the two tensioning rollers are sequentially horizontally arranged on the first support frame along the vertical direction, two ends of each tensioning roller are respectively in shaft connection with the side walls of two sides of the first support frame, and the tensioning rollers are used for tensioning the thermal shrinkage film and realizing the feeding function of the thermal shrinkage film under the transmission action of the tensioning rollers;

the second servo motor is horizontally arranged on the side wall of one side of the first support frame;

and the gear transmission device is arranged on the side wall of the first support frame close to one side of the second servo motor, the output end of the second servo motor is in transmission connection with the gear transmission device, and two output ends of the gear transmission device are in transmission connection with the same end of the two tensioning rollers respectively.

As a preferable mode of the bobbin packaging assembly which is automatically enveloped and tightened, the cutting mechanism includes:

the second support frame is arranged on the mounting frame;

the cutting knife is vertically arranged below the second support frame and is used for cutting the thermal shrinkage film;

the first lifting driving device is vertically arranged at the top end of the second supporting frame, and the output end of the first lifting driving device is fixedly connected with the top end of the cutting knife and is used for driving the cutting knife to realize lifting movement;

the horizontal bearing plate is horizontally and fixedly installed in the middle of the second supporting frame and used for bearing the thermal shrinkage film and providing supporting force for cutting of the cutting knife so as to achieve the cutting function.

As a preferable mode of the bobbin packaging assembly which is automatically enveloped and tightened, the thermal shrinkage film mounting assembly comprises:

the horizontal screw rod sliding table is horizontally arranged on the mounting frame and used for driving the thermal shrinkage film mounting assembly to switch between a thermal shrinkage film taking station and a thermal shrinkage film mounting station;

the third support frame is vertically arranged at the output end of the horizontal screw rod sliding table;

the second lifting driving device is vertically and fixedly arranged on the third supporting frame;

the two semicircular hinged mounting claws are symmetrically arranged along a vertical plane, and the top ends of the two semicircular hinged mounting claws are hinged to the output end of the second lifting driving device and used for absorbing the heat shrinkable film and then mounting the heat shrinkable film on a yarn bobbin;

the mounting claw opening and closing device is arranged on the second lifting driving device, and two output ends of the mounting claw opening and closing device are respectively arranged on the arc outer side walls of the two semicircular hinged mounting claws and used for driving the semicircular hinged mounting claws to be opened and closed.

As a preferred scheme of the yarn tube packaging assembly with automatic film wrapping and tightening, a vacuum suction head for sucking a thermal shrinkage film is arranged on the arc-shaped wall of the semicircular hinged mounting claw, and an electric control heating wire is arranged on the outer edge of the semicircular hinged mounting claw.

As a preferred scheme of the yarn barrel packaging assembly with automatic film wrapping and tightening functions, a plurality of heating pipes which are uniformly distributed are arranged on the inner wall of the heating channel.

Compared with the prior art, the invention has the beneficial effects that:

the yarn barrel packaging assembly capable of automatically enveloping and tightening can fully automatically carry out the enveloping operation of the yarn barrel, realize the automatic feeding and discharging operation, greatly improve the working efficiency, reduce the labor intensity of workers, realize accurate positioning in each processing process, improve the product quality, and avoid the yarn barrel from being scattered in the transportation process by tightly attaching the film on the outer wall of the yarn barrel through heating the heat shrinkage film.

Drawings

FIG. 1 is a first perspective view of the present invention;

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

FIG. 3 is a side view of the present invention;

FIG. 4 is a top view of the present invention;

FIG. 5 is a schematic perspective view of a bobbin loading assembly of the present invention;

FIG. 6 is a schematic perspective view of a portion of the material moving assembly of the present invention;

FIG. 7 is a schematic perspective view of the mounting bracket and the upper bearing according to the present invention;

FIG. 8 is a schematic perspective view of the tensioning feed mechanism and cutting mechanism of the present invention;

FIG. 9 is a perspective view of a shrink film mounting assembly of the present invention;

fig. 10 is a side view of a heating tunnel of the present invention.

The reference numbers in the figures are:

1-a frame; 2-a mounting rack; 3-a bobbin feeding assembly; 4-moving the material component; 5-a thermal shrinkage film feeding assembly; 6-a heat shrink film mounting component; 7-heating the channel; 8, blanking conveying belts; 9-chain type plane conveyor belt; 10-a transfer carriage; 11-a first servomotor; 12-a rotating shaft; 13-a carrying seat; 14-spacing support columns; 15-a feeding conveyor belt; 16-a feeding inclined plate; 17-a first pushing device; 18-a spacing post; 19-pressing plate; 20-a spring; 21-a heat shrink film mounting bracket; 22-a first support frame; 23-a tension roller; 24-a second servo motor; 25-a gear transmission; 26-a second support; 27-a cutting knife; 28-a first lift drive; 29-horizontal carrier plate; 30-a horizontal screw rod sliding table; 31-a third support; 32-a second lifting drive; 33-semicircular hinged mounting claws; 34-installing a claw opening and closing device; 35-vacuum suction head; 36-an electrically controlled heating wire; 37-heating tube.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 4, an automatic envelope-tightening bobbin package assembly includes:

a frame 1;

the mounting frame 2 is arranged beside the rack 1;

the yarn barrel feeding assembly 3 is arranged on the mounting frame 2 and used for realizing the feeding process of the yarn barrel;

the material moving assembly 4 is arranged on the rack 1 and used for driving the yarn barrel to move so as to facilitate the movement of the yarn barrel on each station;

the thermal shrinkage film feeding assembly 5 is arranged on the mounting frame 2, is positioned beside the thermal shrinkage film feeding station of the yarn barrel feeding assembly 3 and is used for providing a thermal shrinkage film required by yarn barrel packaging;

the thermal shrinkage film mounting assembly 6 is arranged on the mounting frame 2, is positioned between the rack 1 and the thermal shrinkage film feeding assembly 5, and is used for mounting the thermal shrinkage film fed by the thermal shrinkage film feeding assembly 5 on a yarn bobbin and sealing the joint of the thermal shrinkage film;

the heating channel 7 is arranged on the rack 1, is positioned on one side of the rack 1, which is far away from the mounting rack 2, and is used for heating the yarn barrel after film feeding and packaging are finished so that the thermal shrinkage film is heated and shrunk and is further clung to the yarn barrel;

the blanking conveying belt 8 is arranged on the frame 1 and is used for blanking the yarn barrel after the envelope shrinkage is finished;

move material subassembly 4 includes:

the chain type plane conveyor belt 9 is horizontally arranged on the rack 1 and is used for driving the yarn bobbin to move along the processing direction;

the conveying support frames 10 are arranged in sequence along the conveying direction of the chain type plane conveyor belt 9, the conveying support frames 10 are fixedly installed on a chain of the chain type plane conveyor belt 9, and the conveying support frames 10 are used for bearing yarn bobbins so that the yarn bobbins can move synchronously along with the output end of the chain type plane conveyor belt 9;

the steering mechanism is provided with a plurality of groups, the steering mechanism of the groups is sequentially and horizontally arranged on the conveying support frames 10, and the steering mechanism is used for driving the yarn barrel to steer so as to realize the loading and unloading and the processing operation of the yarn barrel.

The steering mechanism shown with reference to fig. 6 includes:

the first servo motor 11 is horizontally and fixedly arranged on the side wall of the conveying support frame 10;

the rotating shaft 12 is horizontally arranged on the conveying support frame 10, and two ends of the rotating shaft 12 are respectively in shaft connection with the side walls of two sides of the conveying support frame 10;

the bearing seat 13 is arranged on the conveying support frame 10, and the bearing seat 13 is fixedly connected with the rotating shaft 12 and used for bearing a loaded yarn barrel;

and the limiting support column 14 is vertically arranged at the top end of the bearing seat 13 and is used for positioning and limiting the yarn barrel borne by the bearing seat 13. When steering mechanism during operation, 11 outputs of first servo motor and drives pivot 12 and rotate, pivot 12 drives fixed connection's the seat 13 that bears with it and rotates, and then drive the top and rotate in step with its fixed connection's spacing support column 14, thereby realize the function that turns to of a yarn section of thick bamboo, when a yarn section of thick bamboo follows the motion of chain plane conveyer belt 9, rotate a yarn section of thick bamboo to vertical state through steering mechanism, prevent that a yarn section of thick bamboo from taking place the skew when the transportation, when installation pyrocondensation membrane and unloading, rotate a yarn section of thick bamboo to the horizontality, the going on of the manufacturing procedure of being convenient for.

The bobbin feeding assembly 3 shown with reference to fig. 5 comprises:

the feeding conveyor belt 15 is horizontally arranged at the side of the rack 1, the output direction of the feeding conveyor belt 15 is vertical to the length direction of the rack 1, and the tail end of the feeding conveyor belt 15 points to the mounting rack 2;

the feeding inclined plate 16 is obliquely arranged between the feeding conveyor belt 15 and the mounting frame 2, the higher side of the feeding inclined plate 16 is communicated with the tail end of the feeding conveyor belt 15, and the lower side of the feeding inclined plate 16 is communicated with the mounting frame 2 and used for transferring a yarn barrel fed in the feeding conveyor belt 15 to the mounting frame 2;

the first pushing device 17 is arranged on the mounting frame 2, the output direction of the first pushing device 17 horizontally points to the material moving assembly 4, the first pushing device is used for pushing the yarn barrel falling onto the mounting frame 2 to the bearing seat 13, and the limiting support column 14 is inserted into the center of the yarn barrel, so that the feeding process of the yarn barrel is completed. When the yarn barrel feeding assembly 3 works, the yarn barrel is conveyed to the feeding inclined plate 16 in sequence by the feeding conveying belt 15, the yarn barrel rolls along the inclined direction of the feeding inclined plate 16 to the mounting frame 2, the first pushing device 17 outputs the yarn barrel to be pushed to the bearing seat 13 for feeding, and the yarn barrel is positioned through the limiting supporting columns 14, so that the feeding process of the yarn barrel is realized.

Referring to fig. 5, the output end of the first pushing device 17 is provided with a limiting column 18, a pressing plate 19 and a spring 20, the limiting column 18 is horizontally arranged at one side of the output end of the first pushing device 17 close to the material moving assembly 4, the limiting column 18 and the limiting support column 14 are coaxial, the pressing plate 19 is vertically and fixedly installed in the middle of the limiting column 18, the spring 20 is horizontally arranged between the first pushing device 17 and the pressing plate 19, one end of the spring 20 is fixedly connected with the output end of the first pushing device 17, and the other end of the spring 20 is fixedly connected with the side wall of the pressing plate 19. When the first pushing device 17 works, the limiting column 18 positions one end, close to the first pushing device 17, of the central hole of the yarn barrel, so that the yarn barrel cannot deviate in the pushing process of the first pushing device 17, after the other end of the central hole of the yarn barrel is positioned by the limiting support column 14, the first pushing device 17 continues to push forwards, the yarn barrel continues to be pushed forwards by the pressing plate 19, the spring 20 contracts under the pressure of the pressing plate 19, the yarn barrel is completely sleeved on the limiting support column 14, and the feeding process of the yarn barrel is achieved.

The heat-shrinkable film feeding assembly 5 shown with reference to fig. 7 to 8 comprises:

the thermal shrinkage film mounting support 21 is vertically arranged on the mounting frame 2, the length direction of the thermal shrinkage film mounting support 21 is consistent with that of the rack 1, the thermal shrinkage film mounting support 21 is located on one side, away from the rack 1, of the mounting frame 2, and the thermal shrinkage film mounting support 21 is used for mounting a thermal shrinkage film cylinder so as to provide raw materials for the feeding process of the thermal shrinkage film;

the tensioning feeding mechanism is arranged on the mounting frame 2, is positioned on one side, close to the rack 1, of the thermal shrinkage film mounting support 21, is used for tensioning the thermal shrinkage film, and can realize the feeding function of the thermal shrinkage film;

and the cutting mechanism is arranged on one side of the tensioning and feeding mechanism, which is far away from the thermal shrinkage film mounting support 21, and is used for cutting the thermal shrinkage film output by the tensioning and feeding mechanism so as to provide single thermal shrinkage film raw materials for the subsequent packaging process of a single yarn bobbin. When the thermal shrinkage film feeding assembly 5 works, the thermal shrinkage film mounting support 21 is used for providing a thermal shrinkage film, the tensioning feeding mechanism tensions the thermal shrinkage film and carries out conveying, and the cutting mechanism carries out intermittent cutting operation on the thermal shrinkage film, so that a single thermal shrinkage film raw material which is cut is provided for the thermal shrinkage film mounting assembly 6.

The tension feed mechanism shown with reference to fig. 7-8 includes:

the first support frame 22 is arranged on the mounting frame 2;

the two tensioning rollers 23 are sequentially horizontally arranged on the first support frame 22 along the vertical direction, two ends of each tensioning roller 23 are respectively in shaft connection with the side walls of two sides of the first support frame 22, and the tensioning rollers 23 are used for tensioning the thermal shrinkage film and realizing the feeding function of the thermal shrinkage film under the transmission action of the tensioning rollers 23;

the second servo motor 24 is horizontally arranged on the side wall of one side of the first support frame 22;

and the gear transmission device 25 is arranged on the side wall of the first support frame 22 close to one side of the second servo motor 24, the output end of the second servo motor 24 is in transmission connection with the gear transmission device 25, and two output ends of the gear transmission device 25 are in transmission connection with the same ends of the two tensioning rollers 23 respectively. When the tensioning feeding mechanism works, the output of the second servo motor 24 drives the gear transmission device 25 to move, the gear transmission device 25 drives the two tensioning rollers 23 in transmission connection with the gear transmission device to rotate, the tensioning and transmission functions of driving the thermal shrinkage film between the two tensioning rollers 23 are further realized, and the first support frame 22 is used for installing the tensioning feeding mechanism.

The cutting mechanism shown with reference to fig. 7-8 comprises:

a second support frame 26 provided on the mounting frame 2;

a cutting knife 27 vertically arranged below the second support frame 26 for cutting the heat shrinkable film;

the first lifting driving device 28 is vertically arranged at the top end of the second supporting frame 26, and the output end of the first lifting driving device 28 is fixedly connected with the top end of the cutting knife 27 and is used for driving the cutting knife 27 to realize lifting movement;

and the horizontal bearing plate 29 is horizontally and fixedly arranged in the middle of the second support frame 26 and is used for bearing the heat shrinkage film and providing a supporting force for the cutting of the cutting knife 27 so as to realize the cutting function. When the cutting mechanism works, the second supporting frame 26 is used for installing the cutting mechanism, the first lifting driving device 28 outputs to drive the cutting knife 27 to lift, the cutting knife 27 is matched with the horizontal bearing plate 29 to cut the heat shrinkable film on the horizontal bearing plate 29, and then the cutting function of the cutting mechanism is completed.

The shrink film mounting assembly 6 shown with reference to fig. 9 comprises:

the horizontal screw rod sliding table 30 is horizontally arranged on the mounting frame 2 and is used for driving the thermal shrinkage film mounting assembly 6 to switch between a thermal shrinkage film taking station and a thermal shrinkage film mounting station;

the third support frame 31 is vertically arranged at the output end of the horizontal screw rod sliding table 30;

the second lifting driving device 32 is vertically and fixedly arranged on the third supporting frame 31;

two semicircular hinged mounting claws 33 are arranged, the two semicircular hinged mounting claws 33 are symmetrically arranged along the vertical plane, and the top ends of the two semicircular hinged mounting claws 33 are hinged to the output end of the second lifting driving device 32 and are used for absorbing the heat shrinkable film and then mounting the heat shrinkable film on a yarn bobbin;

and the mounting claw opening and closing device 34 is arranged on the second lifting driving device 32, and two output ends of the mounting claw opening and closing device 34 are respectively arranged on the arc-shaped outer side walls of the two semicircular hinged mounting claws 33 and used for driving the semicircular hinged mounting claws 33 to open and close. When the thermal shrinkage film mounting assembly 6 works, the output of the horizontal lead screw sliding table 30 drives the third support frame 31 to move to the position above the output end of the thermal shrinkage film feeding assembly 5, the output of the second lifting driving device 32 drives the semicircular hinged mounting claws 33 to descend, materials are taken from a thermal shrinkage film, the output of the horizontal lead screw sliding table 30 drives the semicircular hinged mounting claws 33 to move to the position above a yarn bobbin, the output of the second lifting driving device 32 drives the semicircular hinged mounting claws 33 to descend to the mounting height, the output of the mounting claw opening and closing device 34 drives the two semicircular hinged mounting claws 33 to be close to each other, and then the thermal shrinkage film is sleeved on the yarn bobbin, so that the feeding process of the thermal shrinkage film is completed.

Referring to fig. 9, a vacuum suction head 35 for sucking the heat shrinkable film is arranged on the arc-shaped wall of the semicircular hinged mounting claw 33, and an electric control heating wire 36 is arranged on the outer edge of the semicircular hinged mounting claw 33. When the semicircular hinged mounting claw 33 works, the vacuum suction head 35 is convenient for adsorbing the heat-shrinkable film on the inner wall of the semicircular hinged mounting claw 33 and moves synchronously along with the semicircular hinged mounting claw 33, and after the semicircular hinged mounting claw 33 is closed, the electric control heating wire 36 is electrified and output, the heat-shrinkable film with two mutually closed ends is sealed, and the heat-shrinkable film is further ensured to be mounted on a yarn bobbin.

Referring to fig. 10, a plurality of heating pipes 37 are uniformly distributed on the inner wall of the heating channel 7. When the yarn bobbin after finishing the shrink film package moves to heating channel 7 inside, be located the inside heating pipe 37 output of heating channel 7, provide invariable controllable temperature for the shrink film is heated and is shrunk, and then makes the inseparable laminating of shrink film on the surface of yarn bobbin, accomplishes the diolame shrink process of yarn bobbin.

The working principle of the invention is as follows:

when the device works, the yarn barrel feeding component 3 works, the yarn barrel is conveyed to the device through the feeding conveying belt 15, the feeding inclined plate 16 guides the yarn barrel on the feeding conveying belt 15 into the mounting frame 2, the yarn barrel is pushed to the bearing seat 13 through the first pushing device 17, the feeding process of the yarn barrel is further completed, the material moving component 4 drives the yarn barrel to move on each station, the conveying support frame 10 is used for bearing the yarn barrel so that the yarn barrel can synchronously move along with the output end of the chain type plane conveying belt 9, the heat shrinkable film feeding component 5 works to provide a heat shrinkable film required by packaging of the yarn barrel, the heat shrinkable film on the heat shrinkable film mounting support 21 moves below the cutting mechanism through the tensioning and conveying mechanism, the cutting mechanism cuts the heat shrinkable film into a specific size, the heat shrinkable film fed by the heat shrinkable film feeding component 5 is mounted on the yarn barrel through the heat shrinkable film mounting component 6, the yarn barrel packaging assembly with automatic film wrapping and tightening can fully automatically perform the film wrapping operation of the yarn barrel, realize the automatic feeding and discharging operation, greatly improve the working efficiency, reduce the labor intensity of workers, realize accurate positioning in each processing process, improve the product quality, tightly attach the film to the outer wall of the yarn barrel by heating the heat-shrinkable film, the yarn bobbin is prevented from being scattered in the transportation process.

The equipment realizes the functions of the invention through the following steps, thereby solving the technical problems provided by the invention:

step one, when the yarn barrel feeding assembly 3 works, the feeding conveyor belt 15 outputs yarn barrels to be sequentially conveyed onto the feeding inclined plate 16, the yarn barrels roll down to the mounting frame 2 along the inclined direction of the feeding inclined plate 16, the first pushing device 17 outputs the yarn barrels to be pushed onto the bearing seat 13 to be fed, the yarn barrels are positioned through the limiting supporting columns 14, and then the feeding process of the yarn barrels is achieved.

Step two, when the first pushing device 17 works, the limiting column 18 positions one end, close to the first pushing device 17, of the central hole of the yarn barrel, so that the yarn barrel cannot deviate in the pushing process of the first pushing device 17, after the other end of the central hole of the yarn barrel is positioned by the limiting support column 14, the first pushing device 17 continues to push forwards, the pressing plate 19 continues to push the yarn barrel forwards, the spring 20 contracts under the pressure of the pressing plate 19, the yarn barrel is completely sleeved on the limiting support column 14, and the feeding process of the yarn barrel is achieved.

Step three, when the steering mechanism works, the output of the first servo motor 11 drives the rotating shaft 12 to rotate, the rotating shaft 12 drives the bearing seat 13 fixedly connected with the rotating shaft to rotate, and then the limiting support columns 14 fixedly connected with the rotating shaft are driven to synchronously rotate, so that the steering function of the yarn barrel is realized, when the yarn barrel moves along with the chain type plane conveyor belt 9, the yarn barrel is rotated to a vertical state through the steering mechanism, the yarn barrel is prevented from deviating during transportation, when a thermal shrinkage film is installed and feeding and discharging are carried out, the yarn barrel is rotated to a horizontal state, and the processing procedures are convenient to carry out.

Step four, when the thermal shrinkage film feeding assembly 5 works, the thermal shrinkage film mounting support 21 is used for providing a thermal shrinkage film, the tensioning feeding mechanism tensions the thermal shrinkage film and conveys the thermal shrinkage film, and the cutting mechanism performs intermittent cutting operation on the thermal shrinkage film, so that a cut single piece of thermal shrinkage film raw material is provided for the thermal shrinkage film mounting assembly 6.

And step five, when the tensioning feeding mechanism works, the gear transmission device 25 is driven to move through the output of the second servo motor 24, the gear transmission device 25 drives the two tensioning rollers 23 in transmission connection with the gear transmission device to rotate, the tensioning and transmission functions of driving the thermal shrinkage film between the two tensioning rollers 23 are further realized, and the first support frame 22 is used for installing the tensioning feeding mechanism.

Step six, when the cutting mechanism works, the second support frame 26 is used for installing the cutting mechanism, the first lifting driving device 28 outputs and drives the cutting knife 27 to lift, the cutting knife 27 is matched with the horizontal bearing plate 29 to cut the heat shrinkable film on the horizontal bearing plate 29, and then the cutting function of the cutting mechanism is completed.

Seventhly, when the thermal shrinkage film mounting assembly 6 works, the horizontal lead screw sliding table 30 outputs to drive the third support frame 31 to move to the position above the output end of the thermal shrinkage film feeding assembly 5, the second lifting driving device 32 outputs to drive the semicircular hinged mounting claws 33 to descend to take materials for the thermal shrinkage film, the horizontal lead screw sliding table 30 outputs to drive the semicircular hinged mounting claws 33 to move to the position above the yarn barrel, the second lifting driving device 32 outputs to drive the semicircular hinged mounting claws 33 to descend to the mounting height, and the mounting claw opening and closing device 34 outputs to drive the two semicircular hinged mounting claws 33 to be close to each other, so that the thermal shrinkage film is sleeved on the yarn barrel, and the feeding process of the thermal shrinkage film is completed.

Step eight, when the semicircular hinged mounting claw 33 works, the vacuum suction head 35 is convenient for adsorbing the heat-shrinkable film on the inner wall of the semicircular hinged mounting claw 33 and moves synchronously along with the semicircular hinged mounting claw 33, after the semicircular hinged mounting claw 33 is closed, the electric control heating wire 36 is powered on to output, the heat-shrinkable film with two mutually closed ends is sealed, and then the heat-shrinkable film is mounted on the yarn bobbin.

Step nine, when the yarn barrel after the packaging of the heat-shrinkable film is completed moves to the inside of the heating channel 7, the heating pipe 37 positioned in the heating channel 7 outputs to provide constant controllable temperature, so that the heat-shrinkable film is heated and shrunk, and further the heat-shrinkable film is tightly attached to the outer surface of the yarn barrel, and the enveloping shrinkage process of the yarn barrel is completed.

The foregoing has described the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an automatic yarn section of thick bamboo package assembly that membrane was tightened up which characterized in that includes:

a frame (1);

the mounting rack (2) is arranged beside the rack (1);

the yarn barrel feeding assembly (3) is arranged on the mounting frame (2) and is used for realizing the feeding process of the yarn barrel;

the material moving assembly (4) is arranged on the rack (1) and is used for driving the yarn barrel to move so as to facilitate the yarn barrel to move on each station;

the thermal shrinkage film feeding assembly (5) is arranged on the mounting rack (2), is positioned beside a thermal shrinkage film feeding station of the yarn barrel feeding assembly (3) and is used for providing a thermal shrinkage film required by yarn barrel packaging;

the thermal shrinkage film mounting component (6) is arranged on the mounting rack (2), is positioned between the rack (1) and the thermal shrinkage film feeding component (5), and is used for mounting a thermal shrinkage film fed by the thermal shrinkage film feeding component (5) on a yarn bobbin and sealing the joint of the thermal shrinkage film;

the heating channel (7) is arranged on the rack (1), is positioned on one side of the rack (1) far away from the mounting rack (2), and is used for heating the yarn barrel after film feeding and packaging are finished, so that the thermal shrinkage film is heated and shrunk and is further clung to the yarn barrel;

the blanking conveyor belt (8) is arranged beside the rack (1) and is used for blanking the yarn barrel after the envelope shrinkage is finished;

move material subassembly (4) and include:

the chain type plane conveyor belt (9) is horizontally arranged on the rack (1) and is used for driving the yarn barrel to move along the processing direction;

the conveying support frames (10) are arranged in sequence along the conveying direction of the chain type plane conveying belt (9), the conveying support frames (10) are fixedly installed on chains of the chain type plane conveying belt (9), and the conveying support frames (10) are used for bearing yarn bobbins so that the yarn bobbins can move synchronously along with the output end of the chain type plane conveying belt (9);

the steering mechanism is provided with a plurality of groups, the steering mechanisms of the groups are sequentially and horizontally arranged on the conveying support frames (10), and the steering mechanism is used for driving the yarn barrel to steer so as to realize the feeding, discharging and processing operations of the yarn barrel.

2. The package assembly of claim 1, wherein the steering mechanism comprises:

the first servo motor (11) is horizontally and fixedly arranged on the side wall of the conveying support frame (10);

the rotating shaft (12) is horizontally arranged on the conveying support frame (10), and two ends of the rotating shaft (12) are respectively in shaft connection with the side walls of two sides of the conveying support frame (10);

the bearing seat (13) is arranged on the conveying support frame (10), and the bearing seat (13) is fixedly connected with the rotating shaft (12) and is used for bearing the loaded yarn barrel;

and the limiting supporting column (14) is vertically arranged at the top end of the bearing seat (13) and is used for positioning and limiting the yarn barrel borne by the bearing seat (13).

3. The package assembly of bobbin with automatic envelope-closing tightening according to claim 2, characterized in that the bobbin loading assembly (3) comprises:

the feeding conveyor belt (15) is horizontally arranged beside the rack (1), the output direction of the feeding conveyor belt (15) is vertical to the length direction of the rack (1), and the tail end of the feeding conveyor belt (15) points to the mounting rack (2);

the feeding inclined plate (16) is obliquely arranged between the feeding conveyor belt (15) and the mounting frame (2), one side, higher than the feeding inclined plate (16), of the feeding inclined plate is communicated with the tail end of the feeding conveyor belt (15), and one side, lower than the feeding inclined plate (16), of the feeding inclined plate is communicated with the mounting frame (2) and used for transferring a yarn barrel fed in the feeding conveyor belt (15) to the mounting frame (2);

the yarn barrel feeding device comprises a first pushing device (17) arranged on an installation frame (2), wherein the output direction of the first pushing device (17) points to a moving component (4) horizontally, the yarn barrel falling onto the installation frame (2) is pushed onto a bearing seat (13), and a limiting supporting column (14) is inserted into the center of the yarn barrel, so that the yarn barrel feeding process is completed.

4. The automatic film-wrapping and tightening yarn barrel packaging assembly according to claim 3, wherein the output end of the first pushing device (17) is provided with a limiting column (18), a pressing plate (19) and a spring (20), the limiting column (18) is horizontally arranged on one side, close to the material moving assembly (4), of the output end of the first pushing device (17), the limiting column (18) and the limiting support column (14) are coaxial, the pressing plate (19) is vertically and fixedly arranged in the middle of the limiting column (18), the spring (20) is horizontally arranged between the first pushing device (17) and the pressing plate (19), one end of the spring (20) is fixedly connected with the output end of the first pushing device (17), and the other end of the spring (20) is fixedly connected with the side wall of the pressing plate (19).

5. The package assembly of automatic envelope-closing bobbin of claim 1, wherein the feeding assembly of heat-shrinkable film (5) comprises:

the thermal shrinkage film mounting support (21) is vertically arranged on the mounting rack (2), the length direction of the thermal shrinkage film mounting support (21) is consistent with that of the rack (1), the thermal shrinkage film mounting support (21) is positioned on one side, away from the rack (1), of the mounting rack (2), and the thermal shrinkage film mounting support (21) is used for mounting a thermal shrinkage film barrel so as to provide raw materials for the feeding process of the thermal shrinkage film;

the tensioning feeding mechanism is arranged on the mounting frame (2), is positioned on one side, close to the rack (1), of the thermal shrinkage film mounting support (21), and is used for tensioning the thermal shrinkage film and realizing the feeding function of the thermal shrinkage film;

and the cutting mechanism is arranged on one side of the tensioning and feeding mechanism, which is far away from the thermal shrinkage film mounting support (21), and is used for cutting the thermal shrinkage film output by the tensioning and feeding mechanism so as to provide single thermal shrinkage film raw materials for the subsequent packaging process of a single yarn bobbin.

6. The package assembly of claim 5, wherein the tension feed mechanism comprises:

the first support frame (22) is arranged on the mounting frame (2);

the two tensioning rollers (23) are sequentially horizontally arranged on the first support frame (22) along the vertical direction, two ends of each tensioning roller (23) are respectively in shaft connection with the side walls of two sides of the first support frame (22), and each tensioning roller (23) is used for tensioning the thermal shrinkage film and realizing the feeding function of the thermal shrinkage film under the transmission action of the tensioning roller (23);

the second servo motor (24) is horizontally arranged on the side wall of one side of the first support frame (22);

and the gear transmission device (25) is arranged on the side wall of the first support frame (22) close to one side of the second servo motor (24), the output end of the second servo motor (24) is in transmission connection with the gear transmission device (25), and two output ends of the gear transmission device (25) are in transmission connection with the same ends of the two tensioning rollers (23) respectively.

7. The package assembly of claim 5, wherein the cutting mechanism comprises:

the second supporting frame (26) is arranged on the mounting frame (2);

the cutting knife (27) is vertically arranged below the second support frame (26) and is used for cutting the heat shrinkable film;

the first lifting driving device (28) is vertically arranged at the top end of the second supporting frame (26), and the output end of the first lifting driving device (28) is fixedly connected with the top end of the cutting knife (27) and used for driving the cutting knife (27) to realize lifting movement;

horizontal bearing board (29), horizontal fixed mounting is in second support frame (26) middle part for bear the weight of pyrocondensation membrane, and provide the holding power for the cutting of cutting knife (27), so that realize the cutting function.

8. The package assembly of automatic envelope-closing bobbin of claim 1, wherein the shrink-wrap mounting assembly (6) comprises:

the horizontal screw rod sliding table (30) is horizontally arranged on the mounting rack (2) and is used for driving the thermal shrinkage film mounting assembly (6) to switch between a thermal shrinkage film taking station and a thermal shrinkage film mounting station;

the third support frame (31) is vertically arranged at the output end of the horizontal screw rod sliding table (30);

the second lifting driving device (32) is vertically and fixedly arranged on the third supporting frame (31);

the two semicircular hinged mounting claws (33) are symmetrically arranged along a vertical plane, and the top ends of the two semicircular hinged mounting claws (33) are hinged to the output end of the second lifting driving device (32) and used for absorbing a heat shrinkable film and then mounting the heat shrinkable film on a yarn bobbin;

and the mounting claw opening and closing device (34) is arranged on the second lifting driving device (32), and two output ends of the mounting claw opening and closing device (34) are respectively arranged on the arc outer side walls of the two semicircular hinged mounting claws (33) and used for driving the semicircular hinged mounting claws (33) to open and close.

9. The bobbin package assembly for automatic envelope-closing and take-up according to claim 8, wherein the arc-shaped wall of the semicircular hinged mounting claw (33) is provided with a vacuum suction head (35) for sucking the heat-shrinkable film, and the outer edge of the semicircular hinged mounting claw (33) is provided with an electric control heating wire (36).

10. The package assembly of bobbin of yarn of an automatic envelope-closing tightening of claim 1, wherein the inner wall of the heating channel (7) is provided with a plurality of evenly distributed heating pipes (37).