KR101154200B1 - apparatus for forming film by blowing and thermoplastic resin - Google Patents

Abstract

The present invention rotatably supports the upper end of the pair of frames provided in the stabilization means to the upper standing frame, fastening each of the lower ends of the pair of frames to the threaded processing of one shaft rotatably mounted on the floor frame Supported by a bracket which is externally circumscribed, the shaft being coupled to each other by making two half shafts with threaded parts in opposite directions, one of a pair of frames on one half shaft of these half shafts The frame of the other one and the other frame on the other half shaft, the one shaft being driven by the motor, and the point contact at the four points around the outer periphery of the tube between the stabilizing means and the cooling air ring. A guide means having a roller group having a phase difference of 90 degrees so as to be provided underneath the stabilization means, and arranged between the guide means and the cooling air ring. But it provided with a tubular frame body portion that can ssaeul surround the air tube, by having a framework between the guide means and the cooling air ring for the body to be movable up and down the frame body can be solved the conventional problems.

Description

Apparatus for forming film by blowing and thermoplastic resin

The present invention relates to an apparatus for inflating a thermoplastic resin into a film.

As shown in FIG. 1, the conventional film forming apparatus includes a compressor 11, an annular die 12 mounted on the compressor 11, and a cooling air ring 13 provided on the annular die 12. ), A stabilizing means (15) for folding the tube, a pair of pinch rolls (16) and a winding roller (18) of the film (17). In the center of the annular die 12, a pipe 19 connected to a supply device (not shown) of air 24 is provided.

In the stabilization means 15, a plurality of rollers 21 are arranged in parallel in parallel along the longitudinal direction, and the plurality of rollers 21 are arranged on one side and the other side with the tube 14 interposed therebetween. It is. A heat insulating wall 22 made of a heat insulating material is provided around the stabilization means 15 except for the passage portion of the film 17. In addition, a hot wind supply means (not shown) for supplying hot air is provided inside the heat insulation wall 22.

A guide roller 23 is provided between the pinch roller 16 and the take-up roller 18.

The film forming apparatus configured as described above is operated as follows.

The raw material resin is introduced into the extruder 11 to be melt kneaded, and the molten resin is extruded into a cylindrical shape from the annular die 12 to be shaped into a tube 14 shape. The tube 14 is cooled from the cooling air ring 13 to the air 24 while inflating the air 24 into the tube 14 to expand to a desired diameter.

Then, the tube 14 is introduced into the stabilizing means 15 having the plurality of rollers 21 to make a flat film 17, and continuously pulled to wind the film 17 on the winding roller 18. do.

In such a conventional film forming apparatus, the air ring 13 and the stabilization means 15 are arranged far apart compared to the diameter of the tube for curing the tube 14. Due to this arrangement, the tube 14 exiting the air ring 13 and reaching the stabilization means 15 is sensitive to drafts at local locations in the vertical direction, depending on the diameter of the tube being made.

In order to solve this problem, a tubular portion concentric with the center of the tube 14 is disposed radially outwardly on all parts of the tube 14 disposed between the air ring and the stabilization means by a soft cloth. Although all the parts of the tube 14 disposed between the air ring and the stabilization means are disposed in the tubular portion, the manufacturing cost and the maintenance cost are increased, and abnormality is caused in the stabilization means and the air ring. When it occurs, the conventional film forming apparatus has a problem that it is difficult for the worker to quickly access the stabilizing means and the air ring.

In addition, the stabilizing means (15) provided in the conventional film forming apparatus has a pair of molds rotatably mounted at both ends of the roller in a horizontal direction.

The upper ends of the pair of molds are spaced apart by the gap of the pinch rollers 16, and the lower ends of the molds are opened by the diameter of the tube passing through the air ring 13, so that the pair of rectangular frames face each other. Inclined to

However, the diameter of the tube to be stretched differs according to the type of molten resin, so the inclination between the pair of frames needs to be adjusted for each kind of molten resin.

However, the inclination of the conventional pair of frames is set in a manner that is set by the human senses and fixed to the frame, so that the inclination between the pair of frames does not coincide, and the tube is distorted and introduced into the pinch roller. The conventional stabilization means has the problem of being.

In addition, in such a conventional film forming apparatus, as the tube 14 begins to be folded from the point of introduction into the stabilizing means 15, the air in the folded tube 14 is located just below the stabilizing means 15. Move into tube 14 to locally enlarge or bias tube 14.

In order to solve this problem, a tubular part which is made of a soft cloth and concentric with the center of the tube 14 can be circumscribed to the tube 14, but the tube 14 and the tubular part are in surface contact with each other, so that the frictional force This increases, so that the pulling force of the pinch roller 16 is increased so that the desired thickness of the tube 14 cannot be obtained.

The present invention has a problem in solving the above problems.

The present invention rotatably supports the upper end of the pair of frames provided in the stabilization means to the upper standing frame, fastening each of the lower ends of the pair of frames to the threaded processing of one shaft rotatably mounted on the floor frame Supported by a bracket which is externally circumscribed, the shaft being coupled to each other by making two half shafts with threaded parts in opposite directions, one of a pair of frames on one half shaft of these half shafts The above problem can be solved by mounting a frame of one, mounting the other frame on the other half shaft, and driving the one shaft by a motor.

In another aspect, the present invention provides a guide means having a roller group having a 90-degree phase difference between the stabilization means and the cooling air ring at the four points around the outer circumference of the tube directly below the stabilization means, the guide means The frame can be disposed between the cooling air ring and the tubular portion which can surround the tube, and the frame can be solved by allowing the frame to move up and down between the guide means and the cooling air ring.

The present invention is directed to a machine for driving a shaft in a forward and reverse direction by moving a pair of frames in a direction facing each other or moving each other in a back direction by means of a stabilization means presented in the above-mentioned problem solving means. By enabling the driving method, it is possible to make the inclination between the pair of frames coincide with each other and to prevent the tube from being distorted and introduced into the pinch roller.

The present invention also provides a method for maintaining the thickness of a tube by preventing the diameter of the tube from being expanded or biased by the stabilizing means presented in the above-described problem solving means, even when air inside the tube in the stabilizing means flows into the tube upstream of the stabilizing means. Can make things possible.

The present invention also makes it possible to selectively position the tubular portion at a different air-weakening area according to the diameter of the tube discharged from the air ring and reached to the guide means by means of the framework presented in the above-mentioned problem solving means, so that the air-blocking wall It is possible to reduce the manufacturing cost and the maintenance cost of the phosphorus tubular part, and at the same time, even if an abnormality occurs in the guide means and the air ring, the operator can quickly access the stabilization means and the air ring.

1 is a conceptual diagram of a conventional film forming apparatus,
2 is a view showing a film forming apparatus of the present invention,
3 is a view showing the upper end of the pair of frames of the stabilizing means of FIG.
Figure 4 is a view showing the lower end of the pair of upper ends of Figure 2,
5 is a view showing a state in which the upper portion of the pair of frame of Figure 2 is mounted on the pair of upper erect frame,
6 is a view showing a state in which the lower part of the pair of frames of FIG. 2 is mounted on a pair of male screw shafts, and
FIG. 7 is a horizontally cut view of the state of engagement between the bracket of the pair of frames and the female threaded nut of FIG. 6;
8 is a plan view showing a guide means provided in the film forming apparatus of FIG.
9 is a front view of the guide means of FIG. 8;
10 is a front view of the draft blocking means of FIG. 2;
11 is a left side view of the draft blocking means of FIG. 2;
12 is a rear view of the draft blocking means of FIG. 2, and
13 is a plan view of the draft blocking means of FIG.

Hereinafter, an embodiment according to the present invention will be described with reference to FIGS. 2 to 3.

2, the film forming apparatus according to the present embodiment is indicated by reference numeral 10. In FIG.

In the film forming apparatus, the film forming apparatus is provided on the compressor 11, the annular die 12 attached to the compressor 11, and the annular die 12, as in the conventional film forming apparatus. A cooling air ring 13, a stabilizing means 100 for folding the tube, a pair of pinch rollers 16, and a winding roller (not shown) of the film 17 are provided.

2 and 3, a pair of molds 110 and 110 in which a plurality of rollers 21 are arranged in parallel in parallel in the longitudinal direction is provided in the stabilization means 100. It is arrange | positioned at the one side and the other side, respectively, and arrange | positions in between.

As shown in FIGS. 3 and 5, upper pairs of upper and lower sides of the pair of molds 110 and 110 support a pair of upper standing frames F1 for supporting both ends of the pair of pinch rollers 16. It is rotatably mounted to a pair of crosspieces 101 and 101 provided in the pair, and each of the lower ends of the pair of frames 110 and 110 is a pair, as shown in FIGS. 4 and 6. It is attached to a pair of female threaded nuts 150 and 150 circumscribed to the male screw shafts 130 and 130, respectively.

As shown in FIGS. 3 and 5, rod-shaped hinge shafts 111 are mounted on both sides of the upper end of the pair of frames 110, and the tip of the hinge shaft 111 is connected to the pair. It protrudes through the long hole 112 formed in the horizontal direction formed on the crosspiece 101 of the upper standing frame F1.

A rolling roller 113 is rotatably circumscribed on the hinge shaft 111, and the rolling roller 113 is placed on the cross rod 101 so that the rolling shaft 113 pulls the hinge axis to roll along the cross rod. .

As shown in FIG. 6, a through hole 115 is formed at one side of the lower end of the pair of frames 110, and the through hole 115 has a shaft diameter portion 117 formed at one end of the biaxial shaft 116. ) Is penetrated.

The upper end of the female threaded nut part 150 is integrally provided with a bracket 152 having a long hole 151 formed in a vertical direction, and the long hole 151 has a shaft diameter part formed at the other end of the biaxial shaft 116 ( 118 is penetrated.

As shown in FIG. 7, bores 117a and 118a are formed in the axial direction of the biaxial 116 in each of the shaft diameter portions 117 and 118, and the inner circumferential surface of the bore is female threaded.

When the bolts 117c and 118c are engaged with the bores 117a and 118a via the washers 117b and 118b, one end of the biaxial shaft 116 is fixed to one side of the lower end of the mold 110 and the biaxial shaft 116 is fixed. The other end of) is fixed to the female thread nut 150.

As shown in FIG. 4, the pair of male screw shafts 130 and 130 are rotatable to bearings 131 and 131 provided at the upper bottom frame F2 in a state where the pair of male screw shafts 130 and 130 are coupled to each other. The male screw shaft 130 of the pair of male screw shafts 130 and 130 is operatively connected to the reversely rotatable motor M1 mounted on the upper bottom frame F2. .

Each of the pair of male screw shafts 130 and 130 is provided with threaded parts 130a and 130b which are threaded in opposite directions, and the screw is also provided to each of the pair of female threaded nuts 150 and 150. Through-holes 150a and 150b formed on the inner circumferential surface of the screw processing part which can be fastened to the study 130a and 130b are formed.

In the film forming apparatus 10 having the stabilizing means 100 configured as described above, the pair of male screw shafts 130 and 130 are rotated by a motor M1 rotating in either a clockwise or counterclockwise direction. When rotating, the pair of female nut parts 150 and 150, which are externally fastened to the pair of male screw shafts 130 and 130, respectively, move in a direction facing each other, and the motor M is the other direction. When the pair of male threaded shafts 130 and 130 are rotated to rotate, the pair of female threaded nuts 150 and 150 move in the direction in which the pair of female threaded nuts 150 and 150 extend, respectively. As the movement of 150 and 150 moves, the pair of molds 110 are generally disposed in a direction in which the lower ends of the pair of molds 110 face each other or in a direction away from each other about the hinge axis 111. You will be turning.

At this time, as the pair of frame 110 is pivoting, the vertical position of the biaxial 116 mounted on one side at the lower end of the pair of frame 110 is variable, this variable is the biaxial 116 may be accommodated by the bracket 152 of the female threaded nut part 150 mounted through the elongated hole 152 in the vertical direction on the other side.

Horizontal movement for adjusting the distance between the pair of mold 110, the frame of one of the pair of mold 110 passing through the long hole 112 in the horizontal direction of the upper erected frame (F1). The tip of the hinge shaft 111 of 110 is rotatably mounted to the bracket 301, and the non-machined tip of the male screw shaft 302 with the base end of the bracket 301 is rotatably mounted. And internally screw the male screw shaft 302 to the female screw nut 303 fixedly mounted to the upper mounting frame F1, and connect the hinge shaft 111 of the other mold 110 to the pair of screws. It is pivotally mounted on the end of the horizontal bar 312 whose base is fixed to the lower end of the bracket 311 on which the upper end is fixed to the moving rod 310 for moving any one of the pinch rollers 16 and 16 in the horizontal direction. If you can.

The hinge shaft 111 of the other frame 110 is rotatably mounted to the bracket 321 moving along the horizontal guide rail 320 provided in the upper erecting frame F1, and the bracket ( One end of the 321 is fixedly mounted to the tip of the moving rod 310 of the air cylinder 330.

By the above configuration, the motor M1 drives the pair of male screw shafts 130 in the forward and reverse directions to move the pair of frames 110 in a direction facing each other or to move the back in the opposite direction. It is possible to achieve this by a mechanical drive method, to make the inclination between the pair of frames coincide with each other and to prevent the tube from being distorted and introduced into the pinch roller.

In addition to the above configuration, the film forming apparatus 10 includes a guide means 200 directly under the stabilization means 100, as shown in FIG.

As illustrated in FIGS. 8 and 9, the guide means 200 is perpendicular to the bottom plate 210 and the bottom plate 210 having a hole 211 penetrating the tube 14 in the center thereof. The upper plate 220 and the upper and lower ends are mounted on the top plate 220 and the bottom plate 210 at a center spaced apart from each other in a direction upward and having a hole 221 penetrating the tube 14. The proximal end of each of the standing bar group 230 and the standing bar group 230 which are disposed with a phase difference of 45 degrees along the circumference of the diameter larger than the circumference of the tube 14 and having the same center as the center of A group of rollers 250 circumferentially rotatable at the ends of each of the horizontal bar group 240 extending in a tangential direction to the tube 14 and the horizontal bar group 240, and in contact with the tube 14 in a tangential direction. ) Is included.

Each of the four standing rods 230A of the first type arranged at intervals of 90 degrees between adjacent standing rods among the standing rod groups 230 has the phase difference of 90 degrees with respect to the adjacent rollers. A proximal end of one of the horizontal rod groups of the first type horizontal rod groups 240A of the same height level extending in the tangential direction and making point contact with the tube 14 is mounted.

In addition, each of the four standing rods 230B of the second type, which is arranged at intervals of 90 degrees between adjacent standing rods among the eight standing rods 230, has a phase difference of 90 degrees with respect to the corresponding rollers adjacent to the rollers. Extends in the tangential direction of the tube 14 and makes point contact with the genital tube 14, wherein the contact points are in contact with adjacent ones of the contact points between the first type horizontal rod group 240A and the tube 14. A proximal end of one of the horizontal bar groups of the second type horizontal bar groups 240B of the same height level having a phase difference of degrees is mounted.

The first and second type horizontal rod groups 240A and 240B are spaced apart at regular intervals in the vertical direction.

 The plurality of standing bars 230A of the first type and the four standing bars 230B of the second type have a plurality of vertical rod groups 240A and a second type of horizontal rod groups 240B, respectively. They are mounted at regular intervals, but are placed alternately when viewed in the vertical direction.

The standing bar group 230 is rotatably mounted to the bottom plate 210 and the top plate 220 via a bearing.

On each of the upper ends of the standing bar group 230 is fixedly inscribed in the radially projecting portion of the T-shaped bracket 260. Both ends of the straight connection bar 270 are linked to both ends of the T-shaped bracket 260.

 The standing bar group 230 rotatably mounted to the bottom plate 210 and the top plate 220 is connected to the T-shaped bracket 260 and the connection bar 270, so that one bracket is rotated. As the standing bar group 230 is rotated, as the standing bar group 230 rotates, the horizontal bar group 240 pivots about each of the standing bar groups 230 in the same amount in and out of the radial direction of the tube 14 at the same time. Moveable, the rollers 250 circumscribed to the horizontal bar group 240 can be easily adjusted to contact the outer peripheral surface of the tube 14 according to the diameter of the tube (14).

Then, the two sprockets mounted on each of the upper ends of the standing bar group 230 are fixedly externally connected to each other and the adjacent sprockets are driven to each other through a chain, and to any one standing bar among the standing bar groups 230. When the sprocket is connected to a sprocket connected to a drive source (motor) through a chain to the external sprocket, the rollers 250 circumscribed to the horizontal bar group 240 can be easily adjusted by the drive source.

The film forming apparatus 10 configured as described above prevents the tube from being expanded or biased even though the air inside the tube in the stabilizer is introduced into the tube upstream of the stabilizer by the guide means 200. Can make it possible to make constant.

In addition to the above-described configuration, the film forming apparatus 10 includes an air blowing block 400 between the guide means 200 and the cooling air ring 13, as shown in FIG. 2.

As illustrated in FIG. 10, the draft blocking means 400 may include a hexahedral frame frame 410 fixedly disposed below the guide means 200, and a movable body disposed in the hexahedral frame frame 410. 420).

The movable body 420 has a top plate 421 having a through hole 422 having a size through which the tube 14 can pass, and is spaced at a predetermined interval in a vertical direction with respect to the top plate 421 and the top plate 421. A lower plate 424 having the same center as the center of the through hole 422, and having a through hole 423 having the same size and shape as the through hole 422, and the upper plate 421 and the lower plate 424 from each other. The upper and lower ends are coupled to the edge defining the through holes 422 and 423 to be coupled to each other, and include a plurality of standing bars 425 disposed at predetermined intervals in the circumferential direction of the edge.

In the hexahedral frame frame 410, as shown in Figures 10 to 13, the male and the upper and lower parts rotatably mounted in the center of the upper frame 411a and the lower frame 411b of the front rectangular frame 411 A standing shaft 414a is provided, and a male screw standing shaft 414b is rotatably mounted at an upper side and a lower side 413b of the rear rectangular frame 413 and a lower side frame 413b. .

Further, each of the front rectangular frame 411 and the rear rectangular frame 413 is spaced in a horizontal direction at regular intervals with respect to the external thread rising shafts 414a and 414b and is parallel to the external thread rising shafts 414a and 414b. Standing bars 416a and 416b are provided.

The hexahedron frame 410 and the movable body 420 are coupled to each other via a pair of brackets 430a and 430b so that the movable body 420 can be protruded from the hexahedral frame frame 410.

One side of the pair of brackets 430a and 430b is fixed to the front and rear sides of the bottom surface of the upper plate 421 of the movable body 420 by fastening means. On the other side of the pair of brackets 430a and 430b, the through holes 432a and 432b in which the nuts 431a and 431b are fixed and inscribed, and the through holes 434a and 434b in which the bushes 433a and 433b are fixed and inscribed, are provided. The male screw standing shafts 414a and 414b are penetrated and fastened to the nuts 431a and 431b, respectively, and the guide standing bars 416a and 416b are slidable to the bushes 433a and 433b, respectively. Penetrated

Helical gears 441a and 441b are fixedly circumscribed and circumscribed on the upper ends of the male screw standing shafts 414a and 414b exposed through the upper sides 411a and 413a of the front and rear rectangular frames 411 and 413, and On the upper surfaces of the upper frames 411a and 413a, the helical gears 442a and 442b, one end of which is engaged with the helical gears 441a and 441b, are fixedly circumscribed, and the other ends of the sprockets 443a and 443b are fixed. Externally driven driven shafts 444a and 444b are rotatably mounted via bearings.

A worm wheel 446 is fixedly circumscribed to one driven shaft 444a of the driven shafts 444a and 444b, and a worm coupled to the drive shaft of the reversible motor M2 is connected to the worm wheel 446. 447) is interlocked.

A chain 448 is wound around the sprockets 443a and 433b disposed on the upper sides 411a and 413a of the front and rear rectangular frames 411 and 413. When the motor M2 rotates in the forward direction, the driven shaft 444a , 444b rotates simultaneously in either the clockwise or counterclockwise direction in the city via the chain 448 and the sprockets 443a and 44b, thereby simultaneously rotating the male standing shafts 414a and 414b in the clockwise and half directions. When the movable body 420 moves in one of the up and down directions in the vertical direction by simultaneously rotating in a clockwise direction, and the motor M2 rotates in the reverse direction, the movable body 420 ) Will move in the other direction.

In order to protect the tube 14 flowing into the moving body 420 from the outside wind, the plurality of standing rods 425 use the plurality of standing rods 425 as a support to block the tube 14 from the outside wind. The space defined by the standing rod 425 is enclosed.

   The film forming apparatus 10 having the draft blocking means 400 configured as described above is capable of selectively positioning the draft shielding wall at different wind blowing portions according to the diameter of the tube discharged from the air ring to reach the stabilizing means. In this way, it is possible to reduce the manufacturing cost and the maintenance cost of the draft blocking wall, and to allow the worker to quickly approach the stabilizing means and the air ring even when an abnormality occurs in the guide means and the air ring. have.

10; Film forming apparatus, 11; Compressor, 12; Die, 13; Cooling air ring, 14; Tube, 15; Stabilizer, 16; A pair of pinch rollers, 17; Film, 18; Winding roller, 19; Pipe, 21; Roller, 22; Insulating wall, 23; Guide roller, 24; Air, 100; Stabilizer, 101; Crossbar, 110; Frame, 111; Hinge axis 112; 113 long hole in the horizontal direction; Rolling roller, 115; Through hole, 116; Biaxial, 117; Shaft diameter 117a; Bore, 117b; Washer, 117c; Bolt, 118; Shaft diameter 118a; Bore, 118b; Washer, 118c; Bolts, 130; Male screw shaft, 130a; Threaded portion, 130b; Threaded portion, 131; Bearings, 150; Internal thread nut part 150a; Through hole, 150b; Through hole, 151; Long holes in the vertical direction, 152; Bracket, 200; Guide means, 210; Bottom plate, 211; Holes, 220; Top, 221; Holes, 230; Standing rod group, 230A; Four standing rods of the first type, 230B; Four standing rods of the second type, 240; Horizontal bar group, 240A; First type horizontal rod group, 240B; Second type horizontal rod group, 250; Roller group 260; T-shaped bracket, 270; Connecting bar, 301; Bracket, 302; Male shaft, 303; Internal thread, 310; Moving rod, 311; Bracket, 312; Horizontal bar, 320; Horizontal guide rail, 321; Bracket, F1; Upper assembly frame, F2; Upper floor frame, M1; Motor 400; Draft blocking means, 410; Hexahedral frame, 411; Anterior rectangular frame, 411a; Upper frame, 411b; Lower frame, 413; Rear rectangular frame, 413a; Upper frame, 413b; Lower frame, 414a; Male screw standing shaft, 414b; Male screw standing shaft, 416a; Guide standing rods, 416b; Guide standing rods, 420; Moving body, 421; Top, 422; Through hole, 423; Through hole, 424; Bottom plate, 425; Standing rods, 430a; Bracket, 430b; Bracket, 431a; Nut, 431b; Nut, 432a; Through-hole, 432b; Through hole, 433a; Bush, 433b; Bush, 434a; Through-hole, 434b; Through hole, 441a; Helical gears, 441b; Helical gears, 442a; Helical gears, 442b; Helical gears, 443a; Sprocket, 443b; Sprocket, 444a; Driven shaft, 444b; Driven shaft, 446; Worm wheel, 447; Warham, 448; Chain, M2; Motor, V; vinyl

Claims (5)

delete Compressor 11, annular die 12 mounted on compressor 11, cooling air ring 13 provided on annular die 12, stabilization means 100 for folding the tube, a pair of A film forming apparatus comprising a pinch roller 16 and a take-up roller 18 of a film 17, wherein as long as a plurality of rollers 21 are arranged in parallel in the longitudinal direction in the stabilization means 100. In the film forming apparatus 10 in which the pair of molds 110 and 110 are disposed on one side and the other side with the tube 14 interposed therebetween,
The pair of cross bars 101 and 101 provided in the pair of upper erecting frames F1 supporting both ends of the pair of pinch rollers 16 are provided at both sides in the upper width direction of the pair of frames 110 and 110. Rotatably mounted on the pair, and each of the lower ends of the pair of molds 110 and 110 is external to the pair of male screw shafts 130 and 130, each of which has a threaded portion that is threaded in opposite directions. Mounted on a pair of female threaded nuts (150, 150),
The stabilization means includes a guide means 200 having a roller group having a phase difference of 90 degrees between the stabilization means 100 and the cooling air ring 13 at point four around the outer circumference of the tube 14. (100) is placed underneath,
A hexahedron frame disposed between the guide means 200 and the cooling air ring 13 to mount the movable body 420 having a tubular vinyl V capable of enclosing the tube 14 up and down. The draft blocking means 400 including the frame 410 is disposed directly below the guide means 200,
The guide means 200,
A bottom plate 210 having a hole 211 penetrating the tube 14 in the center,
An upper plate 220 spaced apart from the upper plate in a vertical direction at a predetermined interval and having a hole 221 penetrating the tube 14 in the center thereof;
The upper and lower ends are mounted on the top plate 220 and the bottom plate 210 and have the same center as the center of the tube 14 and have a 45 degree phase difference along the circumference of the diameter larger than the circumference of the tube 14. Standing bar groups 230 placed,
In each of the standing bar group 230, the base end is coupled to the horizontal bar group 240, the front end extending in a tangential direction with respect to the tube 14, and
And a roller group (250) rotatably circumscribed at the front end of each of the horizontal bar groups (240) and tangential to the tube (14). The method of claim 2,
The draft blocking means 400,
It includes a hexahedral frame frame 410 fixedly disposed below the guide means 200, and a movable body 420 disposed in the hexahedral frame frame 410,
The movable body 420 has a top plate 421 having a through hole 422 having a size through which the tube 14 can pass, and is spaced at a predetermined interval in a vertical direction with respect to the top plate 421 and the top plate 421. A lower plate 424 having the same center as the center of the through hole 422, and having a through hole 423 having the same size and shape as the through hole 422, and the upper plate 421 and the lower plate 424 from each other. It includes a plurality of standing rods 425 are arranged at a predetermined interval in the circumferential direction of the upper and lower ends are coupled to the edge defining the through holes (422, 423) for coupling,
The hexahedral frame frame 410 is provided with a male screw standing shaft 414a rotatably mounted on the upper and lower frames 411a and the lower frame 411b of the front rectangular frame 411, and rearward. In the center of the upper frame 413a and the lower frame 413b of the rectangular frame 413, a male screw standing shaft 414b rotatably mounted at an upper side and a lower side is provided.
Each of the front rectangular frame 411 and the rear rectangular frame 413 is spaced in a horizontal direction at regular intervals with respect to the male screw standing shafts 414a and 414b and is parallel to the male screw standing shafts 414a and 414b. 416a, 416b are provided,
The hexahedral frame 410 and the movable body 420, the male screw standing shafts (414a, 414b) and the guide standing bar 416a, so that the movable body 420 is protruding from the hexahedral frame frame 410 416b) are coupled to each other via a pair of brackets (430a, 430b) through which,
In order to protect the tube 14 flowing into the moving body 420 from the outside wind, the plurality of standing rods 425 use the plurality of standing rods 425 as a support to block the tube 14 from the outside wind. It is enclosed in the space defined by the standing rod 425,
And said male screw standing shafts (414a, 414b) are driven simultaneously in the same direction by one reversible drive source and mechanical interlocking means. The method of claim 3, wherein
One side of the pair of brackets 430a and 430b is fixed to the front and rear sides of the bottom surface of the top plate 421 of the movable body 420 by fastening means.
On the other side of the pair of brackets 430a and 430b, there are formed through holes 432a and 432b in which nuts 431a and 431b are fixed and inscribed, and through holes 434a and 434b in which bushes 433a and 433b are fixed and inscribed. It is,
The male screw standing shafts 414a and 414b are respectively penetrated and fastened to the nuts 431a and 431b.
The bush (433a, 433b) is a device for forming a film by inflating the thermoplastic resin, characterized in that the guide penetrating rods (416a, 416b) are slidably penetrated, respectively. The method of claim 4, wherein
Helical gears 441a and 441b are externally fixed and circumscribed at the upper ends of the male screw standing shafts 414a and 414b exposed through the upper sides 411a and 413a of the front and rear rectangular frames 411 and 413,
On the upper surfaces of the upper frames 411a and 413a, helical gears 442a and 442b, one end of which is engaged with the helical gears 441a and 441b, are fixedly circumscribed, and the other end is fixed to the sprockets 443a and 443b. The driven shafts 444a and 444b circumscribed to each other are rotatably mounted via bearings,
A worm wheel 446 is fixedly circumscribed on one of the driven shafts 444a of the driven shafts 444a and 444b, and the worm wheel 446 is coupled to a drive shaft of the reversible motor M. 447) is interlocked,
The sprocket (443a, 433b) disposed in the upper frame (411a, 413a) of the front and rear rectangular frame (411, 413), the chain 448 is wound, characterized in that the thermoplastic resin inflated to form a film.

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