阅读说明：本技术 聚四氟乙烯拉膜分条装置及其工作方法 (Polytetrafluoroethylene film drawing and slitting device and working method thereof ) 是由 张旭 于 2020-12-22 设计创作，主要内容包括：本发明涉及一种聚四氟乙烯拉膜分条装置,包括沿着带材输送方向依次设置的拉膜机、分条机；拉膜机包括沿着带材的输送方向依次设置的上料机构、拉膜机构、冷却机构、收卷机构；分条机包括架体,架体上设有差速转辊组,差速转辊组的一旁侧设有用以将带材切条的刀排,另一旁侧设有至少两组收卷器,以及位于收卷器下方的边条收卷辊。该聚四氟乙烯拉膜分条装置的结构简单,能够实现聚四氟乙烯带材的拉膜、分条流水线加工。(The invention relates to a polytetrafluoroethylene film drawing and slitting device, which comprises a film drawing machine and a slitting machine which are sequentially arranged along the conveying direction of a strip material; the film drawing machine comprises a feeding mechanism, a film drawing mechanism, a cooling mechanism and a winding mechanism which are sequentially arranged along the conveying direction of the strip; the slitter comprises a frame body, wherein a differential rotating roller set is arranged on the frame body, a knife row for slitting the strip is arranged on one side of the differential rotating roller set, at least two groups of winders are arranged on the other side of the differential rotating roller set, and an edge strip winding roller positioned below the winders. The polytetrafluoroethylene film-drawing and slitting device is simple in structure, and can realize film-drawing and slitting assembly line processing of polytetrafluoroethylene strips.)

1. A polytetrafluoroethylene draws membrane slitting device which characterized in that: comprises a film drawing machine and a slitting machine which are arranged in sequence along the conveying direction of a strip material.

2. The polytetrafluoroethylene stretch film slitting device according to claim 1, wherein: the film drawing machine comprises a feeding mechanism, a film drawing mechanism, a cooling mechanism and a winding mechanism which are sequentially arranged along the conveying direction of the strip.

3. The polytetrafluoroethylene stretch film slitting device according to claim 2, wherein: the feeding mechanism and the winding mechanism are the same in structure and are symmetrically arranged; the feeding mechanism comprises a rack, wherein a loading and unloading swing rod which is driven by a driving mechanism to swing up and down is hinged to the rack, and a hook part for placing the charging barrel is arranged at the top of the loading and unloading swing rod.

4. The polytetrafluoroethylene drawing film slitting device as set forth in claim 3, wherein: the driving mechanism comprises a first air cylinder, the tail end of a cylinder body of the first air cylinder is hinged with the rack, a piston rod of the first air cylinder is hinged with the non-end part of the loading and unloading swing rod, and the bottom of the loading and unloading swing rod is hinged with the rack; the loading and unloading swing rods are bilaterally symmetrically positioned between the left vertical side wall and the right vertical side wall of the rack, the two loading and unloading swing rods are connected into a whole through the connecting rod, and openings of the hook parts are upward; the top parts of the left and right vertical side walls of the rack are respectively provided with a circular notch which is coaxially arranged by an end bearing of the charging barrel, the notches of the circular notches face the loading and unloading swing rod, upward extending parts are fixedly arranged on the sides of the notches close to the lower swing, and pressing blocks which lean against the periphery of the sides of the notches of the end bearings are screwed on the sides of the extending parts; the charging barrel comprises a barrel body, end bearings are arranged on the pin shafts which are coaxial at two ends of the barrel body, the loading and unloading swing rods are located between the end bearings at the same side and the end face of the barrel body at the same side, a driven gear is arranged outside the rack on one pin shaft, a driving gear which is driven to rotate by a motor is arranged on the rack, and the driven gear of the charging barrel on the loading and unloading swing rods which are swung in place is meshed with the driving gear.

5. The polytetrafluoroethylene stretch film slitting device according to claim 2, wherein: the film drawing mechanism comprises a heating chamber, one side of the heating chamber is a film inlet, and the other opposite side of the heating chamber is a film outlet; at least two rows of stretching roller sets are arranged between the film inlet and the film outlet inside the heating chamber, the stretching rollers of the upper and lower adjacent stretching roller sets are arranged in a staggered manner, and heating rods are arranged inside the stretching rollers to heat the stretching rollers.

6. The polytetrafluoroethylene drawing film slitting device as set forth in claim 5, wherein: an auxiliary heat source is arranged below the drawing roller group in the heating cavity, natural air enters the auxiliary heat cavity of the auxiliary heat source through an air inlet fan, air is heated through an electric heating rod, an air outlet of the auxiliary heat cavity faces upwards, the auxiliary heat source consists of a front-section auxiliary heat source and a rear-section auxiliary heat source, a circulating suction port is arranged above the drawing roller group in the heating cavity, a suction fan is arranged on the circulating suction port, the circulating suction port is circularly communicated with the auxiliary heat cavity of the auxiliary heat source, and circulating air is introduced into the auxiliary heat cavity; a suction hood is arranged above the outer part of the film outlet and is externally connected with suction equipment for sucking hot gas or dirty gas of the film; the cooling mechanism comprises a first cooling roller, a second cooling roller and a third cooling roller which are sequentially arranged on the rack along the conveying direction of the strip, the second cooling roller is positioned above the middle part of the first cooling roller and the third cooling roller, and cooling oil ducts which are connected in series are arranged in the first cooling roller, the second cooling roller and the third cooling roller, wherein the cooling oil duct of the third cooling roller is fed with oil firstly; a swinging roller set is arranged between the cooling mechanism and the winding mechanism and between the feeding mechanism and the film drawing mechanism, the swinging roller set comprises a fixed rotating roller, the fixed rotating roller is connected with a movable rotating roller through a swinging rod, the swinging rod is hinged with a piston rod of a second cylinder, and the tail end of a cylinder body of the second cylinder is hinged with the rack; a round roller is arranged between the film drawing mechanism and the swinging roller set.

7. The polytetrafluoroethylene stretch film slitting device according to claim 1, wherein: the slitter comprises a frame body, wherein a differential rotating roller set is arranged on the frame body, a knife row for slitting the strip is arranged on one side of the differential rotating roller set, at least two groups of winders are arranged on the other side of the differential rotating roller set, and an edge strip winding roller positioned below the winders.

8. The polytetrafluoroethylene drawing film slitting device as set forth in claim 7, wherein: the differential speed roller group consists of a first differential speed roller and a second differential speed roller in sequence along the conveying direction of the strip material, and the rotating speed of the second differential speed roller is greater than that of the first differential speed roller; the cutter row comprises a cutter frame arranged on the frame body, and a plurality of cutters are uniformly distributed between the first differential roller and the second differential roller along the width direction of the strip material on the cutter frame; the winding devices comprise slitting winding rollers arranged on the frame body, swing cantilevers are arranged above the slitting winding rollers, one ends of the swing cantilevers are hinged with the frame body, and the other ends of the swing cantilevers are provided with first compression rollers tightly attached to the outer peripheral wall of the slitting roll; the swing cantilevers of different slitting wind-up rollers are arranged in a staggered way, so that interference is avoided; a first winding roller, a second winding roller and a third winding roller are sequentially arranged between the differential rotating roller group and the winder along the conveying direction of the strip; a fourth winding roller and a fifth winding roller are sequentially arranged between the edge strip winding roller and the differential rotating roller group from top to bottom; and a second compression roller driven to lift by a lifting cylinder is arranged above the second differential roller.

9. The polytetrafluoroethylene stretch film slitting device according to claim 8, wherein: the input end of the differential rotating roller set is sequentially provided with a feeding mechanism and a swinging roller set along the conveying direction of the strip; the feeding mechanism comprises a rack, a loading and unloading swing rod which is driven by a driving mechanism to swing up and down is hinged to the rack, and a hook part for placing the charging barrel is arranged at the top of the loading and unloading swing rod; the driving mechanism comprises a first air cylinder, the tail end of a cylinder body of the first air cylinder is hinged with the rack, a piston rod of the first air cylinder is hinged with the non-end part of the loading and unloading swing rod, and the bottom of the loading and unloading swing rod is hinged with the rack; the loading and unloading swing rods are bilaterally symmetrically positioned between the left vertical side wall and the right vertical side wall of the rack, the two loading and unloading swing rods are connected into a whole through the connecting rod, and openings of the hook parts are upward; the top parts of the left and right vertical side walls of the rack are respectively provided with a circular notch which is coaxially arranged by an end bearing of the charging barrel, the notches of the circular notches face the loading and unloading swing rod, upward extending parts are fixedly arranged on the sides of the notches close to the lower swing, and pressing blocks which lean against the periphery of the sides of the notches of the end bearings are screwed on the sides of the extending parts; the charging barrel comprises a barrel body, end bearings are arranged on pin shafts which are coaxial at two ends of the barrel body, the loading and unloading swing rods are located between the end bearings at the same side and the end face of the barrel body at the same side, a driven gear is arranged outside the rack by one pin shaft, a driving gear which is driven to rotate by a motor is arranged on the rack, and the driven gear of the charging barrel on the loading and unloading swing rods which are swung in place upwards is meshed with the driving gear; the swing roller group comprises a fixed rotating roller arranged on the frame body, the fixed rotating roller is connected with a movable rotating roller through a swing rod, the swing rod is hinged with a piston rod of a second cylinder, and the tail end of a cylinder body of the second cylinder is hinged with the frame body.

10. A method of operating the apparatus for splitting a polytetrafluoroethylene drawing film according to any of claims 1 to 9, comprising the steps of:

s1 film drawing:

s11: the loading and unloading swing rod is driven by the expansion of the first air cylinder to swing up and down, so that the charging barrel is positioned at a working position when the loading and unloading swing rod swings up, and the charging barrel is conveniently unloaded when the loading and unloading swing rod swings down;

s12: the polytetrafluoroethylene strip coil positioned on the charging barrel sequentially passes through the fixed rotating roller, the movable rotating roller and the circular rotating roller, then enters the film pulling mechanism, is wound in an S shape by the upper and lower two rows of stretching roller sets, and finally is sent out from the film outlet;

s13: the independently heated stretching roller heats and stretches the strip, the strip cannot be always contacted with the stretching roller in the conveying process, the auxiliary heat source is used for auxiliary heating of the strip, the temperature of the strip which is not contacted with the stretching roller is not enough, the auxiliary heat is subjected to hot air circulation through the circulating suction port, hot air is prevented from being accumulated at the upper part in the heating chamber, and the auxiliary heat is ensured to be uniform;

s14: the stretched film is sent out from the film outlet, a suction hood is arranged above the outside of the film outlet, and the suction hood is externally connected with suction equipment and used for sucking hot gas or foul gas of the film;

s15: the stretched film is wound and cooled by a first cooling roller, a second cooling roller and a third cooling roller in sequence, wherein a cooling oil passage of the third cooling roller is fed with oil firstly, the temperature of cooling oil is the lowest at the moment, the cooling oil gradually absorbs heat after flowing through the second cooling roller and the first cooling roller, namely, the cooling effect is sequentially enhanced from the first cooling roller, the second cooling roller and the third cooling roller, and the film is prevented from being suddenly cooled and damaged by adopting step-by-step cooling;

s16: winding the cooled film by a winding mechanism;

s17: in the process, the swing roller group is driven by the second cylinder to enable the movable rotary roller to swing up and down to adjust the conveying tightness of the strip;

s2: splitting:

s21: loading the stretched polytetrafluoroethylene tape roll into a charging barrel of a slitting machine;

s22: the polytetrafluoroethylene strip is sent into a swing roller set of the strip separator, and the swing roller set is driven by a second cylinder to enable the movable rotating roller to swing up and down to adjust the conveying tightness of the strip;

s23: the polytetrafluoroethylene strip is further sent into a strip cutting and conveying mechanism, wound and conveyed by a first differential roller and a second differential roller, tightened under the action of differential speed, and cut into a plurality of strips by a cutter row; the edge strips are sequentially wound and wound by a fourth winding roller, a fifth winding roller and an edge strip winding roller from bottom to top, one part of the edge strips enters one winder for winding through the first winding roller, the second winding roller and the third winding roller, and the other part of the edge strips enters the other winder for winding through the first winding roller, the second winding roller and the third winding roller; when the winder winds, the first compression roller is always attached to the outer peripheral wall of the slitting roll, so that wrinkles are avoided, and the swinging cantilever gradually swings and adapts to the increase of the outer diameter of the slitting roll; when the belt is temporarily broken after the winding is finished, the second pressing roller descends to press the belt material of the second differential roller so as to prevent the belt material at the front part from loosening and falling off.

Technical Field

The invention relates to a polytetrafluoroethylene film drawing and slitting device and a working method thereof.

Background

The polytetrafluoroethylene strip is in a wide band sheet shape. When producing strip-shaped polytetrafluoroethylene, the strip needs to be subjected to film drawing to stretch the strip, and then is cut and stripped. To achieve the above object, the present invention has been made in view of the above.

Disclosure of Invention

In view of the defects of the prior art, the technical problem to be solved by the invention is to provide a polytetrafluoroethylene film drawing and slitting device and a working method thereof.

In order to solve the technical problems, the technical scheme of the invention is as follows: a polytetrafluoroethylene film drawing and slitting device comprises a film drawing machine and a slitting machine which are sequentially arranged along the conveying direction of a strip material.

Preferably, draw membrane machine including along the feed mechanism, draw membrane mechanism, cooling body, the winding mechanism that the direction of delivery of strip set gradually.

Preferably, the feeding mechanism and the winding mechanism have the same structure and are symmetrically arranged; the feeding mechanism comprises a rack, wherein a loading and unloading swing rod which is driven by a driving mechanism to swing up and down is hinged to the rack, and a hook part for placing the charging barrel is arranged at the top of the loading and unloading swing rod.

Preferably, the driving mechanism comprises a first cylinder, the tail end of the cylinder body of the first cylinder is hinged with the rack, a piston rod of the first cylinder is hinged with the non-end part of the loading and unloading swing rod, and the bottom of the loading and unloading swing rod is hinged with the rack; the loading and unloading swing rods are bilaterally symmetrically positioned between the left vertical side wall and the right vertical side wall of the rack, the two loading and unloading swing rods are connected into a whole through the connecting rod, and openings of the hook parts are upward; the top parts of the left and right vertical side walls of the rack are respectively provided with a circular notch which is coaxially arranged by an end bearing of the charging barrel, the notches of the circular notches face the loading and unloading swing rod, upward extending parts are fixedly arranged on the sides of the notches close to the lower swing, and pressing blocks which lean against the periphery of the sides of the notches of the end bearings are screwed on the sides of the extending parts; the charging barrel comprises a barrel body, end bearings are arranged on the pin shafts which are coaxial at two ends of the barrel body, the loading and unloading swing rods are located between the end bearings at the same side and the end face of the barrel body at the same side, a driven gear is arranged outside the rack on one pin shaft, a driving gear which is driven to rotate by a motor is arranged on the rack, and the driven gear of the charging barrel on the loading and unloading swing rods which are swung in place is meshed with the driving gear.

Preferably, the film drawing mechanism comprises a heating chamber, one side of the heating chamber is provided with a film inlet, and the other opposite side is provided with a film outlet; at least two rows of stretching roller sets are arranged between the film inlet and the film outlet inside the heating chamber, the stretching rollers of the upper and lower adjacent stretching roller sets are arranged in a staggered manner, and heating rods are arranged inside the stretching rollers to heat the stretching rollers.

Preferably, an auxiliary heat source is arranged below the drawing roller group in the heating chamber, natural air is fed into the auxiliary heat chamber of the auxiliary heat source through an air inlet fan, air is heated through an electric heating rod, an air outlet of the auxiliary heat chamber faces upwards, the auxiliary heat source consists of a front-section auxiliary heat source and a rear-section auxiliary heat source, a circulating suction port is arranged above the drawing roller group in the heating chamber, a suction fan is arranged on the circulating suction port, the circulating suction port is circularly communicated with the auxiliary heat chamber of the auxiliary heat source, and circulating air is introduced into the auxiliary heat chamber; a suction hood is arranged above the outer part of the film outlet and is externally connected with suction equipment for sucking hot gas or dirty gas of the film; the cooling mechanism comprises a first cooling roller, a second cooling roller and a third cooling roller which are sequentially arranged on the rack along the conveying direction of the strip, the second cooling roller is positioned above the middle part of the first cooling roller and the third cooling roller, and cooling oil ducts which are connected in series are arranged in the first cooling roller, the second cooling roller and the third cooling roller, wherein the cooling oil duct of the third cooling roller is fed with oil firstly; a swinging roller set is arranged between the cooling mechanism and the winding mechanism and between the feeding mechanism and the film drawing mechanism, the swinging roller set comprises a fixed rotating roller, the fixed rotating roller is connected with a movable rotating roller through a swinging rod, the swinging rod is hinged with a piston rod of a second cylinder, and the tail end of a cylinder body of the second cylinder is hinged with the rack; a round roller is arranged between the film drawing mechanism and the swinging roller set.

Preferably, the slitting machine comprises a frame body, a differential roller set is arranged on the frame body, a knife row used for slitting the strip is arranged on one side of the differential roller set, at least two groups of winders are arranged on the other side of the differential roller set, and an edge strip winding roller located below the winders.

Preferably, the differential roller group consists of a first differential roller and a second differential roller in sequence along the conveying direction of the strip, and the rotating speed of the second differential roller is greater than that of the first differential roller; the cutter row comprises a cutter frame arranged on the frame body, and a plurality of cutters are uniformly distributed between the first differential roller and the second differential roller along the width direction of the strip material on the cutter frame; the winding devices comprise slitting winding rollers arranged on the frame body, swing cantilevers are arranged above the slitting winding rollers, one ends of the swing cantilevers are hinged with the frame body, and the other ends of the swing cantilevers are provided with first compression rollers tightly attached to the outer peripheral wall of the slitting roll; the swing cantilevers of different slitting wind-up rollers are arranged in a staggered way, so that interference is avoided; a first winding roller, a second winding roller and a third winding roller are sequentially arranged between the differential rotating roller group and the winder along the conveying direction of the strip; a fourth winding roller and a fifth winding roller are sequentially arranged between the edge strip winding roller and the differential rotating roller group from top to bottom; and a second compression roller driven to lift by a lifting cylinder is arranged above the second differential roller.

Preferably, the input end of the differential rotating roller group is sequentially provided with a feeding mechanism and a swinging roller group along the conveying direction of the strip; the feeding mechanism comprises a rack, a loading and unloading swing rod which is driven by a driving mechanism to swing up and down is hinged to the rack, and a hook part for placing the charging barrel is arranged at the top of the loading and unloading swing rod; the driving mechanism comprises a first air cylinder, the tail end of a cylinder body of the first air cylinder is hinged with the rack, a piston rod of the first air cylinder is hinged with the non-end part of the loading and unloading swing rod, and the bottom of the loading and unloading swing rod is hinged with the rack; the loading and unloading swing rods are bilaterally symmetrically positioned between the left vertical side wall and the right vertical side wall of the rack, the two loading and unloading swing rods are connected into a whole through the connecting rod, and openings of the hook parts are upward; the top parts of the left and right vertical side walls of the rack are respectively provided with a circular notch which is coaxially arranged by an end bearing of the charging barrel, the notches of the circular notches face the loading and unloading swing rod, upward extending parts are fixedly arranged on the sides of the notches close to the lower swing, and pressing blocks which lean against the periphery of the sides of the notches of the end bearings are screwed on the sides of the extending parts; the charging barrel comprises a barrel body, end bearings are arranged on pin shafts which are coaxial at two ends of the barrel body, the loading and unloading swing rods are located between the end bearings at the same side and the end face of the barrel body at the same side, a driven gear is arranged outside the rack by one pin shaft, a driving gear which is driven to rotate by a motor is arranged on the rack, and the driven gear of the charging barrel on the loading and unloading swing rods which are swung in place upwards is meshed with the driving gear; the swing roller group comprises a fixed rotating roller arranged on the frame body, the fixed rotating roller is connected with a movable rotating roller through a swing rod, the swing rod is hinged with a piston rod of a second cylinder, and the tail end of a cylinder body of the second cylinder is hinged with the frame body.

A working method of a polytetrafluoroethylene film drawing and slitting device is carried out according to the following steps:

s1 film drawing:

s11: the loading and unloading swing rod is driven by the expansion of the first air cylinder to swing up and down, so that the charging barrel is positioned at a working position when the loading and unloading swing rod swings up, and the charging barrel is conveniently unloaded when the loading and unloading swing rod swings down;

s12: the polytetrafluoroethylene strip coil positioned on the charging barrel sequentially passes through the fixed rotating roller, the movable rotating roller and the circular rotating roller, then enters the film pulling mechanism, is wound in an S shape by the upper and lower two rows of stretching roller sets, and finally is sent out from the film outlet;

s13: the independently heated stretching roller heats and stretches the strip, the strip cannot be always contacted with the stretching roller in the conveying process, the auxiliary heat source is used for auxiliary heating of the strip, the temperature of the strip which is not contacted with the stretching roller is not enough, the auxiliary heat is subjected to hot air circulation through the circulating suction port, hot air is prevented from being accumulated at the upper part in the heating chamber, and the auxiliary heat is ensured to be uniform;

s14: the stretched film is sent out from the film outlet, a suction hood is arranged above the outside of the film outlet, and the suction hood is externally connected with suction equipment and used for sucking hot gas or foul gas of the film;

s15: the stretched film is wound and cooled by a first cooling roller, a second cooling roller and a third cooling roller in sequence, wherein a cooling oil passage of the third cooling roller is fed with oil firstly, the temperature of cooling oil is the lowest at the moment, the cooling oil gradually absorbs heat after flowing through the second cooling roller and the first cooling roller, namely, the cooling effect is sequentially enhanced from the first cooling roller, the second cooling roller and the third cooling roller, and the film is prevented from being suddenly cooled and damaged by adopting step-by-step cooling;

s16: winding the cooled film by a winding mechanism;

s17: in the process, the swing roller group is driven by the second cylinder to enable the movable rotary roller to swing up and down to adjust the conveying tightness of the strip;

s2: splitting:

s21: loading the stretched polytetrafluoroethylene tape roll into a charging barrel of a slitting machine;

s22: the polytetrafluoroethylene strip is sent into a swing roller set of the strip separator, and the swing roller set is driven by a second cylinder to enable the movable rotating roller to swing up and down to adjust the conveying tightness of the strip;

s23: the polytetrafluoroethylene strip is further sent into a strip cutting and conveying mechanism, wound and conveyed by a first differential roller and a second differential roller, tightened under the action of differential speed, and cut into a plurality of strips by a cutter row; the edge strips are sequentially wound and wound by a fourth winding roller, a fifth winding roller and an edge strip winding roller from bottom to top, one part of the edge strips enters one winder for winding through the first winding roller, the second winding roller and the third winding roller, and the other part of the edge strips enters the other winder for winding through the first winding roller, the second winding roller and the third winding roller; when the winder winds, the first compression roller is always attached to the outer peripheral wall of the slitting roll, so that wrinkles are avoided, and the swinging cantilever gradually swings and adapts to the increase of the outer diameter of the slitting roll; when the belt is temporarily broken after the winding is finished, the second pressing roller descends to press the belt material of the second differential roller so as to prevent the belt material at the front part from loosening and falling off.

Compared with the prior art, the invention has the following beneficial effects: the polytetrafluoroethylene film-drawing and slitting device is simple in structure, and can realize film-drawing and slitting assembly line processing of polytetrafluoroethylene strips.

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic structural diagram of a film drawing machine.

Fig. 2 is a schematic structural diagram (upper swing) of a feeding mechanism of the film drawing machine.

Fig. 3 is a schematic structural view (lower hem) of a feeding mechanism of the film drawing machine.

Fig. 4 is a partially enlarged view of fig. 2.

Fig. 5 is a front view of fig. 4.

Fig. 6 is a schematic configuration diagram of the film drawing mechanism.

Fig. 7 is a schematic configuration diagram of the cooling mechanism.

Fig. 8 is a schematic configuration diagram of the slitting machine.

Fig. 9 is a structural schematic diagram (upper swing) of a feeding mechanism of the slitting machine.

Fig. 10 is a structural schematic view (lower hem) of a feeding mechanism of the slitting machine.

Detailed Description

In order to make the aforementioned and other features and advantages of the invention more comprehensible, embodiments accompanied with figures are described in detail below.

As shown in FIGS. 1 to 10, a PTFE film drawing and slitting device comprises a film drawing machine and a slitting machine which are sequentially arranged along the conveying direction of a strip.

In the embodiment of the invention, the film drawing machine comprises a feeding mechanism 30A, a film drawing mechanism 31A, a cooling mechanism 32A and a winding mechanism 33A which are sequentially arranged along the conveying direction of the strip.

In the embodiment of the invention, the feeding mechanism and the winding mechanism have the same structure and are symmetrically arranged; the feeding mechanism comprises a rack 1A, a loading and unloading swing rod 2A which is driven by a driving mechanism to swing up and down is hinged to the rack, and a hook part 4A for placing a charging barrel 3A is arranged at the top of the loading and unloading swing rod.

In the embodiment of the invention, the driving mechanism comprises a first air cylinder 5A, the tail end of the cylinder body of the first air cylinder is hinged with the rack, a piston rod of the first air cylinder is hinged with the non-end part of the loading and unloading swing rod, and the bottom of the loading and unloading swing rod is hinged with the rack; the loading and unloading swing rods are bilaterally symmetrically positioned between the left vertical side wall and the right vertical side wall of the rack, the two loading and unloading swing rods are connected into a whole through a connecting rod 6A, and openings of the hook parts are upward; circular notches 9A which are coaxially arranged by end bearings 8A of the charging barrels are formed in the top of the left vertical side wall 7A and the top of the right vertical side wall 7A of the rack, notches of the circular notches face the loading and unloading swing rods, upward extending portions 10A are fixedly arranged on the sides, close to the lower swing, of the openings, and pressing blocks 11A which lean against the periphery of the sides of the notches of the end bearings are screwed on the side faces of the extending portions; the charging barrel comprises a barrel body 12A, end bearings are arranged on pin shafts 13A which are coaxial at two ends of the barrel body, the loading and unloading swing rods are located between the end bearings at the same side and the end face of the barrel body at the same side, a driven gear 14A is arranged outside the rack on one pin shaft, a driving gear 16A which is driven to rotate by a motor 15A is arranged on the rack, and the driven gear of the charging barrel on the loading and unloading swing rods which are swung upwards is meshed with the driving gear. The hook part drives the pin shaft to swing upwards, the end bearing rolls into the round notch, and meanwhile, the pressing block leans against the end bearing, so that the driving gear drives the driven gear to drive the cylinder body to rotate; when the pendulum is swung downwards, the hook part hooks the pin shaft again, and the end bearing rolls out of the round notch.

In the embodiment of the invention, the film drawing mechanism comprises a heating chamber 21A, one side of the heating chamber is a film inlet 22A, and the other opposite side is a film outlet 23A; at least two rows of stretching roller sets are arranged between the film inlet and the film outlet inside the heating chamber, the stretching rollers 24A of the upper and lower adjacent stretching roller sets are arranged in a staggered mode, and heating rods are arranged inside the stretching rollers to heat the stretching rollers.

In the embodiment of the invention, an auxiliary heat source is arranged below a drawing roller set in a heating chamber, the auxiliary heat chamber of the auxiliary heat source is used for introducing natural air through an air inlet fan and heating air through an electric heating rod, an air outlet of the auxiliary heat chamber faces upwards, the auxiliary heat source consists of a front-section auxiliary heat source 25A and a rear-section auxiliary heat source 26A, a circulating suction port 27A is arranged above the drawing roller set in the heating chamber, a suction fan is arranged on the circulating suction port, the circulating suction port is circularly communicated with the auxiliary heat chamber of the auxiliary heat source, and circulating air is introduced into the auxiliary heat chamber; a suction hood 37A is arranged above the outer part of the film outlet and is externally connected with suction equipment for sucking hot gas or dirty gas of the film; the cooling mechanism comprises a first cooling roller 34A, a second cooling roller 35A and a third cooling roller 36A which are sequentially arranged on the rack along the conveying direction of the strip, the second cooling roller is positioned above the middle of the first cooling roller and the third cooling roller, and cooling oil ducts which are connected in series are arranged in the first cooling roller, the second cooling roller and the third cooling roller, wherein the cooling oil duct of the third cooling roller is fed with oil firstly; swing roller sets are arranged between the cooling mechanism and the winding mechanism and between the feeding mechanism and the film drawing mechanism, each swing roller set comprises a fixed rotary roller 17A, the fixed rotary rollers are connected with movable rotary rollers 19A through swing rods 18A, the swing rods are hinged with piston rods of second air cylinders 20A, and the tail ends of cylinder bodies of the second air cylinders are hinged with the rack; a round roller 28A is arranged between the film drawing mechanism and the swinging roller group.

In the embodiment of the invention, the slitting machine comprises a frame body 1B, wherein a differential roller set is arranged on the frame body, a knife row for slitting the strip 2B is arranged on one side of the differential roller set, at least two groups of winders are arranged on the other side of the differential roller set, and an edge strip winding roller 3B is positioned below the winders.

In the embodiment of the invention, the differential roller group consists of a first differential roller 4B and a second differential roller 5B in sequence along the conveying direction of the strip, and the rotating speed of the second differential roller is greater than that of the first differential roller; the cutter row comprises a cutter frame 6B arranged on the frame body, and a plurality of cutters 7B uniformly distributed along the width direction of the strip are arranged between the first differential roller and the second differential roller of the cutter frame; the winding devices comprise slitting winding rollers 8B which are arranged on the frame body, swing cantilevers 9B are arranged above the slitting winding rollers, one ends of the swing cantilevers are hinged with the frame body, and the other ends of the swing cantilevers are provided with first compression rollers 10B which are tightly attached to the outer peripheral wall of the slitting roll; the swing cantilevers of different slitting wind-up rollers are arranged in a staggered way, so that interference is avoided; a first winding roller 11B, a second winding roller 12B and a third winding roller 13B are sequentially arranged between the differential rotating roller group and the winder along the conveying direction of the strip; a fourth winding roller 14B and a fifth winding roller 15B are sequentially arranged between the edge strip winding roller and the differential rotating roller group from top to bottom; a second press roller 17B driven to ascend and descend by the ascending and descending cylinder 16B is arranged above the second differential roller.

In the embodiment of the invention, the input end of the differential rotating roller group is sequentially provided with a feeding mechanism and a swinging roller group along the conveying direction of the strip; the feeding mechanism comprises a rack, a loading and unloading swing rod which is driven by a driving mechanism to swing up and down is hinged to the rack, and a hook part for placing the charging barrel is arranged at the top of the loading and unloading swing rod; the driving mechanism comprises a first air cylinder, the tail end of a cylinder body of the first air cylinder is hinged with the rack, a piston rod of the first air cylinder is hinged with the non-end part of the loading and unloading swing rod, and the bottom of the loading and unloading swing rod is hinged with the rack; the loading and unloading swing rods are bilaterally symmetrically positioned between the left vertical side wall and the right vertical side wall of the rack, the two loading and unloading swing rods are connected into a whole through the connecting rod, and openings of the hook parts are upward; the top parts of the left and right vertical side walls of the rack are respectively provided with a circular notch which is coaxially arranged by an end bearing of the charging barrel, the notches of the circular notches face the loading and unloading swing rod, upward extending parts are fixedly arranged on the sides of the notches close to the lower swing, and pressing blocks which lean against the periphery of the sides of the notches of the end bearings are screwed on the sides of the extending parts; the charging barrel comprises a barrel body, end bearings are arranged on pin shafts which are coaxial at two ends of the barrel body, the loading and unloading swing rods are located between the end bearings at the same side and the end face of the barrel body at the same side, a driven gear is arranged outside the rack by one pin shaft, a driving gear which is driven to rotate by a motor is arranged on the rack, and the driven gear of the charging barrel on the loading and unloading swing rods which are swung in place upwards is meshed with the driving gear; the swing roller group comprises a fixed rotating roller arranged on the frame body, the fixed rotating roller is connected with a movable rotating roller through a swing rod, the swing rod is hinged with a piston rod of a second cylinder, and the tail end of a cylinder body of the second cylinder is hinged with the frame body.

A working method of a polytetrafluoroethylene film drawing and slitting device is carried out according to the following steps:

s1 film drawing:

s11: the loading and unloading swing rod is driven by the expansion of the first air cylinder to swing up and down, so that the charging barrel is positioned at a working position when the loading and unloading swing rod swings up, and the charging barrel is conveniently unloaded when the loading and unloading swing rod swings down;

s12: the polytetrafluoroethylene strip coil 29A on the charging barrel sequentially passes through the fixed rotating roller, the movable rotating roller and the circular rotating roller, enters the film pulling mechanism, is wound in an S shape by the upper and lower two rows of stretching roller sets, and is finally sent out from the film outlet;

s13: the independently heated stretching roller heats and stretches the strip, the strip cannot be always contacted with the stretching roller in the conveying process, the auxiliary heat source is used for auxiliary heating of the strip, the temperature of the strip which is not contacted with the stretching roller is not enough, the auxiliary heat is subjected to hot air circulation through the circulating suction port, hot air is prevented from being accumulated at the upper part in the heating chamber, and the auxiliary heat is ensured to be uniform;

s14: the stretched film is sent out from the film outlet, a suction hood is arranged above the outside of the film outlet, and the suction hood is externally connected with suction equipment and used for sucking hot gas or foul gas of the film;

s15: the stretched film is wound and cooled by a first cooling roller, a second cooling roller and a third cooling roller in sequence, wherein a cooling oil passage of the third cooling roller is fed with oil firstly, the temperature of cooling oil is the lowest at the moment, the cooling oil gradually absorbs heat after flowing through the second cooling roller and the first cooling roller, namely, the cooling effect is sequentially enhanced from the first cooling roller, the second cooling roller and the third cooling roller, and the film is prevented from being suddenly cooled and damaged by adopting step-by-step cooling;

s16: winding the cooled film by a winding mechanism;

s17: in the process, the swing roller group is driven by the second cylinder to enable the movable rotary roller to swing up and down to adjust the conveying tightness of the strip;

s2: splitting:

s21: loading the stretched polytetrafluoroethylene tape roll into a charging barrel of a slitting machine;

s22: the polytetrafluoroethylene strip is sent into a swing roller set of the strip separator, and the swing roller set is driven by a second cylinder to enable the movable rotating roller to swing up and down to adjust the conveying tightness of the strip;

s23: the polytetrafluoroethylene strip is further sent into a strip cutting and conveying mechanism, wound and conveyed by a first differential roller and a second differential roller, tightened under the action of differential speed, and cut into a plurality of strips by a cutter row; the edge strips are sequentially wound and wound by a fourth winding roller, a fifth winding roller and an edge strip winding roller from bottom to top, one part of the edge strips enters one winder for winding through the first winding roller, the second winding roller and the third winding roller, and the other part of the edge strips enters the other winder for winding through the first winding roller, the second winding roller and the third winding roller; when the winder winds, the first compression roller is always attached to the outer peripheral wall of the slitting roll 18B to avoid wrinkles, and the swinging cantilever gradually swings and adapts to the increase of the outer diameter of the slitting roll; when the belt is temporarily broken after the winding is finished, the second pressing roller descends to press the belt material of the second differential roller so as to prevent the belt material at the front part from loosening and falling off.

The present invention is not limited to the above-mentioned preferred embodiments, and other various forms of teflon drawing film striping apparatus and methods of operation can be devised by anyone in light of the present invention. All equivalent changes and modifications made according to the claims of the present invention should be covered by the present invention.