CN115582948A

CN115582948A - Plastic film coating shaping cooling device

Info

Publication number: CN115582948A
Application number: CN202211200249.8A
Authority: CN
Inventors: 陈波
Original assignee: Yancheng Youbote New Material Co ltd
Current assignee: Yancheng Youbote New Material Co ltd
Priority date: 2022-09-29
Filing date: 2022-09-29
Publication date: 2023-01-10
Anticipated expiration: 2042-09-29
Also published as: CN115582948B

Abstract

The invention discloses a plastic film coating forming cooling device which comprises a hollow roller for cooling and forming a plastic film coating, wherein the inner wall of one end of the hollow roller is movably connected with a rotating column, the center of the rotating column penetrates through the rotating column to be rotatably connected with a fixed rod, one end of the hollow roller, far away from the rotating column, is movably connected with a limiting block for limiting the hollow roller to move horizontally, one end of the limiting block, far away from the hollow roller, is fixedly connected with an L-shaped base, two ends of the hollow roller penetrate through the fixed rod and the limiting block and are fixedly connected with a filling pipe for filling cooling liquid into the inner wall of the hollow roller, the bottom of the filling pipe between the fixed rod and the limiting block is provided with a plurality of through holes for spraying cooling liquid onto the inner wall of the hollow roller, and the filling pipe is provided with a filling mechanism for enabling the cooling liquid to circulate and fill the inner wall of the hollow roller.

Description

Plastic film coating shaping cooling device

Technical Field

The invention relates to the technical field of plastic film coating forming cooling, in particular to a plastic film coating forming cooling device.

Background

Plastic films are films made of polyvinyl chloride, polyethylene, polypropylene, polystyrene and other resins, used for packaging, and used as film coatings. Plastic packages and plastic package products have a larger share in the market, and particularly, composite plastic flexible packages are widely applied to the fields of food, medicine, chemical industry and the like, wherein the proportion of the plastic packages is the largest, such as beverage packages, quick-frozen food packages, steamed and cooked food packages, fast food packages and the like, and the plastic packages and the plastic package products bring great convenience to the life of people.

The existing plastic film coating has poor cooling effect after being processed, long cooling time, and poor use effect because the dust in the air easily causes wrinkles, bubbles and damages of the plastic film coating in the cooling process.

Therefore, a plastic film coating forming cooling device is provided.

Disclosure of Invention

The invention aims to provide a plastic film coating forming and cooling device which has the advantage of plastic film coating forming and cooling and solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a plastic film coating shaping cooling device, includes the hollow cylinder to plastic film coating cooling shaping, the inner wall swing joint of one end has the rotation post on the hollow cylinder, it runs through by the rotation to rotate post central point and is connected with the dead lever, the one end swing joint that the hollow cylinder kept away from the rotation post has the stopper that makes the spacing horizontal migration of hollow cylinder, the one end fixedly connected with L shape base of hollow cylinder is kept away from to the stopper, hollow cylinder both ends run through dead lever and stopper and fixedly connected with pack the filling tube of coolant liquid to hollow cylinder inner wall packing, a plurality of through-holes to hollow cylinder inner wall spray coolant liquid are seted up to filling tube bottom between dead lever and the stopper, be equipped with the filling mechanism that makes the coolant liquid circulate and pack hollow cylinder inner wall on the filling tube.

Preferably, the filling mechanism includes that the filling pipe both ends run through and fixedly connected with places the cylindricality cavity of coolant liquid, and filling pipe both ends and cylindricality cavity outline central point put symmetric connection, the equal sliding connection in cylindricality cavity both ends inner wall symmetric point has first piston plate and the second piston plate to the circulating filling coolant liquid of hollow drum, the bottom fixedly connected with carriage release lever of first piston plate, and the one end that the first piston plate was kept away from to the carriage release lever runs through and sliding connection has the second piston plate, the one end central point fixedly connected with loop bar that first piston plate was kept away from to the second piston plate, and the outline sliding connection of loop bar and carriage release lever, the equal fixedly connected with connecting seat in outline symmetric point that carriage release lever and loop bar are close to the bottom, two be provided with on the connecting seat and make first piston plate and second piston plate opposite directions and back of the body reciprocating motion's actuating mechanism.

Preferably, actuating mechanism includes that one side fixedly connected with first bracing piece and the second bracing piece of keeping away from the stopper on the L shape base and being close to the edge, and first bracing piece and second bracing piece symmetry set up, the opposite face of first bracing piece and second bracing piece is connected with the dwang of dorsad direction through the round pin rotation, two the homonymy of dwang is equipped with the connecting rod, the connecting rod is connected with the second through the round pin rotation to the opposite face that first bracing piece one end was kept away from to one of them dwang, the connecting rod is kept away from the one end of connecting rod and is connected through the round pin rotation to the connecting seat of one side on the carriage release lever to the second, the connecting rod is connected with first regulation pole through the round pin rotation to the opposite face that second bracing piece one end was kept away from to another dwang, the connecting rod was kept away from to the one end of connecting rod and is connected through the round pin rotation to the connecting seat of one side on the loop bar to the first regulation pole.

Preferably, the bottom bilateral symmetry position of hollow cylinder all rotates and is connected with the winding up roller, two winding up roller both ends central point puts and runs through and fixedly connected with spliced pole, the one end of spliced pole runs through L shape base and swivelling joint, two the one end that L shape base was kept away from to the spliced pole runs through and fixedly connected with makes two winding up rollers pivoted brake gear and first auxiliary gear in opposite directions, and the spliced pole runs through first bracing piece and links firmly and the transmission with the dwang is coaxial, keeps away from drive by power unit on the spliced pole of brake gear one end and rotates.

Preferably, be equipped with the complementary unit who gets rid of the coating bubble on the plastic film on the post rotates, complementary unit sets up the track groove that makes hollow cylinder horizontal reciprocating motion including rotating the post outline, run through and fixedly connected with and track inslot wall sliding connection's fixture block on the hollow cylinder, the one end fixedly connected with that hollow cylinder was kept away from in the track groove is connected with the second auxiliary gear of brake gear transmission, and the second auxiliary gear rotates with the dead lever to be connected.

Preferably, the number of the driving mechanisms is two, and the two driving mechanisms are symmetrically connected to the two connecting seats.

Preferably, the bottom of the cylindrical cavity is connected with a first connecting pipe which absorbs the cooling liquid in the hollow roller into the cylindrical cavity in a penetrating manner, one end, far away from the cylindrical cavity, of the first connecting pipe penetrates through the fixing rod and is movably connected with the inner wall of the hollow roller, one side, close to the bottom, of the cylindrical cavity penetrates through the second connecting pipe which is fixedly connected with the second connecting pipe and fills the cooling liquid to the inner wall of the hollow roller, and the second connecting pipe is communicated with the filling pipe close to one end of the hollow roller.

Preferably, the inner wall that is close to second connecting pipe one end on the filling pipe is equipped with the second check valve that makes the interior coolant liquid of cylindricality cavity fill to hollow cylinder in, the one end that second check valve was kept away from to the filling pipe runs through to be equipped with and absorbs the first check valve to the cylindricality cavity with the coolant liquid in the filling pipe, the one end inner wall that first connecting pipe is close to the cylindricality cavity is equipped with and absorbs the third check valve to the cylindricality cavity with the interior coolant liquid of hollow cylinder, the one end inner wall that the second connecting pipe is close to the cylindricality cavity is equipped with the fourth check valve who fills the interior coolant liquid of cylindricality cavity to hollow cylinder.

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

through setting up hollow cylinder for hollow cylinder can be better cools off plastic film coating, through the rotation post that sets up on the hollow cylinder, make the rotation post carry out the dead axle at hollow cylinder's inner wall and rotate, through dead lever and the stopper that sets up on rotating the post, make the coolant liquid is filled to hollow cylinder's inner wall that the filling tube can be better, through the L shape base that sets up, make hollow cylinder can place more steadily on L shape base.

The cooling liquid can be better stored through the cylindrical cavity arranged on the filling pipe, the first piston plate and the second piston plate can move oppositely or oppositely through the first piston plate and the second piston plate arranged on the cylindrical cavity, the moving rod can axially move on the second piston plate through the moving rod arranged on the first piston plate, the sleeve rod and the moving rod can axially move through the sleeve rod arranged on the second piston plate, and the first piston plate and the second piston plate can better move oppositely or oppositely through the connecting seats arranged on the sleeve rod and the moving rod;

through the first connecting pipe arranged on the cylindrical cavity, when the first piston plate and the second piston plate move in opposite directions, the first connecting pipe can absorb cooling liquid on the inner wall of the hollow roller into the cylindrical cavity, and through the second connecting pipe arranged on the cylindrical cavity, when the first piston plate and the second piston plate move back to back, the second connecting pipe can fill the cooling liquid on the inner wall of the hollow roller through the filling pipe;

the first one-way valve and the second one-way valve in the filling pipe are arranged to enable the cooling liquid to circulate better, the third one-way valve arranged on the first connecting pipe and the fourth one-way valve arranged on the second connecting pipe enable the first piston plate and the second piston plate to continuously supplement the cooling liquid to the hollow roller when moving in a reciprocating manner,

when the first piston plate and the second piston plate move relatively, air pressure between the first piston plate and the second piston plate is reduced, so that cooling liquid is filled into the hollow roller through the second one-way valve in the filling pipe, meanwhile, original cooling liquid on the inner wall of the hollow roller is absorbed to the bottom of the cylindrical cavity through the third one-way valve in the first connecting pipe, when the first piston plate and the second piston plate move back to back, air pressure between the first piston plate and the second piston plate is increased, so that the cooling liquid in the filling pipe is absorbed into the cylindrical cavity through the first one-way valve, and meanwhile, the cooling liquid on the bottom of the cylindrical cavity is filled into the inner wall of the hollow roller through the fourth one-way valve in the second connecting pipe.

According to the structure, along with the relative or back-to-back reciprocating movement of the first piston plate and the second piston plate, the cooling liquid in the cylindrical cavity can be circularly filled into the inner wall of the hollow roller to cool and mold the plastic film coating.

The driving mechanism can be more stably placed through the first supporting rod and the second supporting rod arranged on the L-shaped base, the rotating rod can perform fixed-axis rotation on the second supporting rod and the first supporting rod through the rotating rods arranged on the first supporting rod and the second supporting rod, the second adjusting rod can perform fixed-axis rotation with the connecting rod at one end and the rotating rod through the connecting rod arranged on the rotating rod, and simultaneously the first adjusting rod can perform fixed-axis rotation with the connecting rod at the other end and the rotating rod,

when the connecting column drives the rotating rod to rotate in a fixed shaft manner, the first piston plate and the second piston plate move in a reciprocating manner in an opposite or opposite manner;

through setting up the winding up roller for behind the plastic film coating cooling, the secondary carries out the roll-in and stereotypes and conveys, through the spliced pole that sets up on the winding up roller, make the spliced pole carry out the dead axle on L shape base and rotate, through the brake gear and the first auxiliary gear that set up on the winding up roller, make two winding up rollers can carry out rotation in opposite directions better, through the power unit that sets up on the spliced pole, make brake gear and first auxiliary gear can be mutual transmission better.

According to the structure, the connecting column is driven to rotate through the power mechanism, so that the two winding rollers rotate oppositely to roll and form the plastic film for the second time, and meanwhile, the connecting column is in transmission connection with the rotating rod, so that the driving mechanism can drive the first piston plate and the second piston plate to move back and forth in an opposite direction.

Through the track groove that sets up on the rotation post for the fixture block carries out spacing slip on the track groove, and the fixture block that sets up on the hollow cylinder makes the fixture block carry out horizontal reciprocating motion under the rotation in track groove, through the second auxiliary gear who sets up on the rotation post, makes brake gear can drive better and rotate the post and carry out the dead axle rotation.

The auxiliary mechanism can remove the coating bubbles on the plastic film through the horizontal reciprocating movement of the hollow roller.

Through the cooperation of above-mentioned structure, solved the longer problem of plastic film coating cooling shaping time.

Drawings

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

FIG. 2 is a front cross-sectional view of a three-dimensional structure of the present invention;

FIG. 3 is a schematic view of a driving structure of the present invention;

FIG. 4 is a schematic view of the structure B shown in FIG. 2 according to the present invention;

FIG. 5 is a schematic view of a brake gear according to the present invention;

FIG. 6 is a schematic view of the structure A shown in FIG. 2 according to the present invention;

fig. 7 is a cross-sectional view of a cylindrical housing of the present invention.

In the figure: 1. a hollow drum; 101. a clamping block; 2. rotating the column; 211. a track groove; 3. a fixing rod; 4. a limiting block; 5. an L-shaped base; 6. a fill tube; 61. a first one-way valve; 62. a second one-way valve; 7. a cylindrical cavity; 8. a first piston plate; 81. a second piston plate; 9. a travel bar; 10. a loop bar; 11. a first connecting pipe; 111. a third one-way valve; 12. a second connecting pipe; 121. a fourth one-way valve; 13. a connecting seat; 14. a first support bar; 15. a second support bar; 16. rotating the rod; 17. a connecting rod; 18. a first adjusting lever; 19. a second adjusting lever; 20. a winding roller; 21. connecting columns; 22. a brake gear; 23. a first auxiliary gear; 24. a second auxiliary gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides a plastic film coating shaping cooling device, includes hollow cylinder 1 to plastic film coating cooling shaping, the inner wall swing joint of one end has rotation post 2 on

hollow cylinder

1, 2 central points of rotation post put to run through and are rotated and be connected with dead lever 3, hollow cylinder 1 keeps away from the one end swing joint who rotates post 2 and has the stopper 4 that makes 1 spacing horizontal migration of hollow cylinder, the one end fixedly connected with L shape base 5 of hollow cylinder 1 is kept away from to stopper 4, hollow cylinder 1 both ends run through dead lever 3 and stopper 4 and fixedly connected with packs the filling tube 6 of coolant liquid to 1 inner wall of hollow cylinder, a plurality of through-holes that spray the coolant liquid to 1 inner wall of hollow cylinder are seted up to 6 bottoms of filling tube between dead lever 3 and the stopper 4, be equipped with on the filling tube 6 and make the coolant liquid circulate the filling mechanism who packs 1 inner wall of hollow cylinder.

Through setting up hollow cylinder 1, make hollow cylinder 1 can cool off the plastic film coating better, through the rotation post 2 that sets up on hollow cylinder 1, make rotation post 2 carry out the dead axle at hollow cylinder 1's inner wall and rotate, through dead lever 3 and the stopper 4 that sets up on rotating post 2, make the coolant liquid can be filled to hollow cylinder 1's inner wall better to filling tube 6, through the L shape base 5 that sets up on stopper 4, make hollow cylinder 1 can place more stably on L shape base 5.

The filling mechanism comprises a cylindrical cavity 7 which is penetrated through and fixedly connected with two ends of a filling pipe 6 and used for placing cooling liquid, the two ends of the filling pipe 6 are symmetrically connected with the center position of the outer contour of the cylindrical cavity 7, the symmetrical positions of the inner walls of the two ends of the cylindrical cavity 7 are both slidably connected with a first piston plate 8 and a second piston plate 81 which are used for circularly filling the cooling liquid in the hollow roller 1, the bottom of the first piston plate 8 is fixedly connected with a movable rod 9, one end, far away from the first piston plate 8, of the movable rod 9 is penetrated through and slidably connected with the second piston plate 81, the center position, far away from the first piston plate 8, of the second piston plate 81 is fixedly connected with a sleeve rod 10, the sleeve rod 10 is slidably connected with the outer contour of the movable rod 9, the symmetrical positions, near the bottoms, of the outer contours of the movable rod 9 and the sleeve rod 10 are both fixedly connected with connecting seats 13, and two connecting seats 13 are provided with driving mechanisms which enable the first piston plate 8 and the second piston plate 81 to reciprocate oppositely and back;

the bottom of the cylindrical cavity 7 is connected with a first connecting pipe 11 which is used for absorbing the cooling liquid in the hollow roller 1 into the cylindrical cavity 7 in a penetrating manner, one end, far away from the cylindrical cavity 7, of the first connecting pipe 11 penetrates through the fixing rod 3 and is movably connected with the inner wall of the hollow roller 1, one side, close to the bottom, of the cylindrical cavity 7 penetrates through and is fixedly connected with a second connecting pipe 12 which is used for filling the cooling liquid into the inner wall of the hollow roller 1, and the second connecting pipe 12 is communicated with the filling pipe 6, close to one end of the hollow roller 1;

the inner wall that is close to second connecting pipe 12 one end on the filling tube 6 is equipped with the second check valve 62 that makes the cooling liquid in the cylindricality cavity 7 fill to hollow cylinder 1, the one end that second check valve 62 is kept away from to filling tube 6 runs through and is equipped with the first check valve 61 that absorbs the cooling liquid in the filling tube 6 to the cylindricality cavity 7, the one end inner wall that first connecting pipe 11 is close to cylindricality cavity 7 is equipped with the third check valve 111 that absorbs the cooling liquid in hollow cylinder 1 to cylindricality cavity 7, the one end inner wall that second connecting pipe 12 is close to cylindricality cavity 7 is equipped with the fourth check valve 121 that fills the cooling liquid in cylindricality cavity 7 to hollow cylinder 1.

The cooling liquid can be better stored through the cylindrical cavity 7 arranged on the filling pipe 6, the first piston plate 8 and the second piston plate 81 are enabled to move oppositely or oppositely through the first piston plate 8 and the second piston plate 81 arranged on the cylindrical cavity 7, the moving rod 9 is enabled to move axially on the second piston plate 81 through the moving rod 9 arranged on the first piston plate 8, the sleeve rod 10 and the moving rod 9 are enabled to move axially through the sleeve rod 10 arranged on the second piston plate 81, and the first piston plate 8 and the second piston plate 81 can better move oppositely or oppositely through the connecting seats 13 arranged on the sleeve rod 10 and the moving rod 9;

through the first connecting pipe 11 arranged on the cylindrical cavity 7, when the first piston plate 8 and the second piston plate 81 move in opposite directions, the first connecting pipe 11 can absorb the cooling liquid on the inner wall of the hollow roller 1 into the cylindrical cavity 7, and through the second connecting pipe 12 arranged on the cylindrical cavity 7, when the first piston plate 8 and the second piston plate 81 move in opposite directions, the second connecting pipe 12 can fill the cooling liquid on the inner wall of the hollow roller 1 through the filling pipe 6;

the first one-way valve 61 and the second one-way valve 62 in the filling pipe 6 are arranged to enable the cooling liquid to circulate better, the third one-way valve 111 arranged on the first connecting pipe 11 and the fourth one-way valve 121 arranged on the second connecting pipe 12 enable the first piston plate 8 and the second piston plate 81 to continuously supplement the cooling liquid to the hollow roller 1 when moving back and forth,

when the first piston plate 8 and the second piston plate 81 move relatively, the air pressure between the first piston plate 8 and the second piston plate 81 is reduced, so that the cooling liquid is filled into the hollow roller 1 through the second check valve 62 in the filling pipe 6, meanwhile, the original cooling liquid on the inner wall of the hollow roller 1 is absorbed to the bottom of the cylindrical cavity 7 through the third check valve 111 in the first connecting pipe 11, when the first piston plate 8 and the second piston plate 81 move away from each other, the air pressure between the first piston plate 8 and the second piston plate 81 is increased, so that the cooling liquid in the filling pipe 6 is absorbed into the cylindrical cavity 7 through the first check valve 61, and meanwhile, the cooling liquid on the bottom of the cylindrical cavity 7 is filled into the inner wall of the hollow roller 1 through the fourth check valve 121 in the second connecting pipe 12.

With the above structure, the first piston plate 8 and the second piston plate 81 reciprocate relatively or oppositely, so that the cooling liquid in the cylindrical cavity 7 can be circularly filled into the inner wall of the hollow roller 1 to cool and mold the plastic film coating.

Example two

On the basis of the first embodiment, further: the driving mechanism comprises a first supporting rod 14 and a second supporting rod 15 which are fixedly connected to one side, far away from the edge of the limiting block 4, of the L-shaped base 5, the first supporting rod 14 and the second supporting rod 15 are symmetrically arranged, opposite surfaces of the first supporting rod 14 and the second supporting rod 15 are rotatably connected with rotating rods 16 in the back direction through pin shafts, a connecting rod 17 is arranged on the same side of the two rotating rods 16, the connecting rod 17 is rotatably connected with one opposite surface, far away from the first supporting rod 14, of one rotating rod 16 through a pin shaft, a second adjusting rod 19 is rotatably connected with the opposite surface, far away from the first supporting rod 14, of the other rotating rod 16 through a pin shaft, one end, far away from the connecting rod 17, of the second adjusting rod 19 is rotatably connected with a connecting seat 13 on one side of the moving rod 9 through a pin shaft, the opposite surfaces, far away from the second supporting rod 15, of the connecting rod 17 and the other rotating rod 16 are rotatably connected with a first adjusting rod 18 through a pin shaft, and one end, far away from the connecting seat 18 is rotatably connected with the connecting seat 13 on one side of the sleeve rod 10 through a pin shaft;

the number of the driving mechanisms is two, and the two driving mechanisms are symmetrically connected to the two connecting seats 13;

hollow cylinder 1's bottom bilateral symmetry position all rotates and is connected with winding up roller 20, two winding up roller 20 both ends central point puts and runs through and fixedly connected with spliced pole 21, the one end of spliced pole 21 runs through L shape base 5 and swivelling joint, two the one end that L shape base 5 was kept away from to spliced pole 21 runs through and fixedly connected with makes two winding up roller 20 pivoted brake gear 22 and first auxiliary gear 23 in opposite directions, and spliced pole 21 runs through first bracing piece 14 and links firmly and the transmission with the dwang 16 is coaxial, keeps away from drive the rotation by power unit on the spliced pole 21 of brake gear 22 one end.

The driving mechanism can be placed more stably through the first supporting rod 14 and the second supporting rod 15 arranged on the L-shaped base 5, the rotating rod 16 can make fixed-axis rotation on the second supporting rod 15 and the first supporting rod 14 through the rotating rod 16 arranged on the first supporting rod 14 and the second supporting rod 15, the second adjusting rod 19 can make fixed-axis rotation with the connecting rod 17 at one end and the rotating rod 16 through the connecting rod 17 arranged on the rotating rod 16, and the first adjusting rod 18 can make fixed-axis rotation with the connecting rod 17 at the other end and the rotating rod 16,

when the connecting rod 21 drives the rotating rod 16 to rotate in a fixed axis manner, the first piston plate 8 and the second piston plate 81 move back and forth in an opposite or opposite direction along with the fixed axis rotation of the end, far away from the connecting rod 17, of the first adjusting rod 18 and the connecting seat 13 on the loop bar 10 and the fixed axis rotation of the end, far away from the connecting rod 17, of the second adjusting rod 19 and the connecting seat 13 on the moving rod 9;

through setting up the winding up roller 20, make plastic film coating cooling back, the secondary carries out the roll-in design and conveys, through the spliced pole 21 that sets up on the winding up roller 20, make spliced pole 21 carry out the dead axle rotation on L shape base 5, through the brake gear 22 and the first auxiliary gear 23 that set up on the winding up roller 20, make two winding up rollers 20 can carry out the rotation in opposite directions better, through the power unit that sets up on the spliced pole 21, make brake gear 22 and first auxiliary gear 23 can be mutual transmission better.

Above-mentioned structure drives spliced pole 21 through power unit and rotates for two rollers 20 rotate in opposite directions and roll in shaping to plastic film secondary roll, and spliced pole 21 is connected with 16 transmissions of dwang simultaneously, can make actuating mechanism drive first piston plate 8 and second piston plate 81 carry out in opposite directions and back of the body reciprocating motion mutually.

EXAMPLE III

On the basis of the second embodiment, the following steps are further performed: be equipped with the complementary unit who gets rid of the plastic film upper coating bubble on the post 2 rotates, complementary unit sets up the track groove 211 that makes 1 horizontal reciprocating motion of hollow cylinder including rotating 2 outlines on the post, run through and fixedly connected with and track groove 211 inner wall sliding connection's fixture block 101 on the hollow cylinder 1, the one end fixedly connected with and the braking gear 22 transmission of hollow cylinder 1 are kept away from in track groove 211 and are connected second auxiliary gear 24, and second auxiliary gear 24 rotates with dead lever 3 and is connected.

Through the track groove 211 that sets up on rotating post 2 for fixture block 101 carries out spacing slip on track groove 211, and the fixture block 101 that sets up on hollow cylinder 1 makes fixture block 101 carry out horizontal reciprocating motion under the rotation of track groove 211, through the second auxiliary gear 24 that sets up on rotating post 2, makes brake gear 22 can better drive and rotate post 2 and carry out the dead axle and rotate.

The auxiliary mechanism can remove the coating bubbles on the plastic film through the horizontal reciprocating movement of the hollow roller 1.

Further realized cooling off the shaping fast to plastic film coating, convenient to use, it is better to compare traditional product.

The working principle is as follows: when the plastic film coating forming cooling device is used, the hollow roller 1 is arranged to better cool a plastic film coating, the rotating column 2 arranged on the hollow roller 1 is arranged to enable the rotating column 2 to perform fixed-axis rotation on the inner wall of the hollow roller 1, the fixed rod 3 and the limiting block 4 arranged on the rotating column 2 are arranged to enable the filling pipe 6 to better fill cooling liquid on the inner wall of the hollow roller 1, the L-shaped base 5 arranged on the limiting block 4 is arranged to enable the hollow roller 1 to be more stably placed on the L-shaped base 5, the cylindrical cavity 7 arranged on the filling pipe 6 is arranged to enable the cooling liquid to be better stored, the first piston plate 8 and the second piston plate 81 arranged on the cylindrical cavity 7 are arranged to enable the first piston plate 8 and the second piston plate 81 to move oppositely or oppositely, the moving rod 9 arranged on the first piston plate 8 is arranged to enable the moving rod 9 to axially move on the second piston plate 81, the sleeve rod 10 arranged on the second piston plate 81 is arranged to enable the sleeve rod 10 and the moving rod 9 to move oppositely, the second piston plate 9 and the connecting pipe 7 are arranged to absorb the cooling liquid through the connecting pipe 7, the connecting pipe 7 and the connecting pipe 7 are arranged to enable the second piston plate 7 to move axially, when the inner wall of the hollow roller 1 and the connecting pipe 7 move oppositely, the connecting pipe 7 is arranged to absorb the hollow roller 12, the first check valve 61 and the second check valve 62 in the filling pipe 6 are arranged to enable the cooling liquid to circulate better, the third check valve 111 arranged on the first connecting pipe 11 and the fourth check valve 121 arranged on the second connecting pipe 12 enable the first piston plate 8 and the second piston plate 81 to be supplemented with the cooling liquid continuously when moving back and forth in the hollow roller 1, when the first piston plate 8 and the second piston plate 81 move relatively, the air pressure between the first piston plate 8 and the second piston plate 81 is reduced, the cooling liquid is filled into the hollow roller 1 through the second check valve 62 in the filling pipe 6, meanwhile, the original cooling liquid on the inner wall of the hollow roller 1 is absorbed to the bottom of the cylindrical cavity 7 through the third check valve 111 in the first connecting pipe 11, when the first piston plate 8 and the second piston plate 81 move back and forth, the air pressure between the first piston plate 8 and the second piston plate 81 is increased, so that the cooling liquid in the filling pipe 6 is absorbed into the cylindrical cavity 7 through the first check valve 61, and the cooling liquid at the bottom of the cylindrical cavity 7 is filled into the inner wall of the hollow roller 1 through the fourth check valve 121 in the second connecting pipe 12, and the above structure, along with the relative or back-to-back reciprocating movement of the first piston plate 8 and the second piston plate 81, can make the cooling liquid in the cylindrical cavity 7 circularly filled into the inner wall of the hollow roller 1 to cool and form the plastic film coating, through the first supporting rod 14 and the second supporting rod 15 arranged on the L-shaped base 5, the driving mechanism can be placed more stably, through the rotating rods 16 arranged on the first supporting rod 14 and the second supporting rod 15, the rotating rods 16 perform fixed axis rotation on the second supporting rod 15 and the first supporting rod 14, through the connecting rod 17 arranged on the rotating rods 16, so that the second adjustment lever 19 performs the fixed axis rotation with the one-end connecting lever 17 and the rotating lever 16, while the first adjustment lever 18 performs the fixed axis rotation with the other-end connecting lever 17 and the rotating lever 16,

the structure is that the end of the first adjusting rod 18 far from the connecting rod 17 and the connecting seat 13 on the loop bar 10 perform fixed axis rotation, the end of the second adjusting rod 19 far from the connecting rod 17 and the connecting seat 13 on the moving rod 9 perform fixed axis rotation, when the connecting column 21 drives the rotating rod 16 to perform fixed axis rotation, so that the first piston plate 8 and the second piston plate 81 perform reciprocating movement in the opposite direction or in the opposite direction, through the arrangement of the winding rollers 20, after the plastic film coating is cooled, secondary rolling shaping and conveying are performed, through the connecting column 21 arranged on the winding rollers 20, so that the connecting column 21 performs fixed axis rotation on the L-shaped base 5, through the braking gear 22 and the first auxiliary gear 23 arranged on the winding rollers 20, so that the two winding rollers 20 can perform better opposite rotation, through the power mechanism arranged on the connecting column 21, so that the braking gear 22 and the first auxiliary gear 23 can better transmit each other, the structure drives the connecting column 21 to rotate through the power mechanism, so that the two winding rollers 20 rotate in the opposite direction to perform secondary rolling molding on the plastic film through the hollow roller 2, meanwhile, the fixture block 21 is connected with the fixture block 21, so that the driving mechanism can drive the first piston plate 8 and the second piston plate 81 to perform horizontal sliding in the hollow roller groove on the hollow roller 101, and the hollow roller 101, so that the hollow roller 101 can perform horizontal sliding groove on the hollow roller 101, and the hollow roller can perform horizontal sliding groove of the reciprocating movement of the hollow roller mechanism, and the hollow roller 211, and the hollow roller 2, and the hollow roller coating can be removed through the hollow roller 211, and the hollow roller.

The standard parts used in the present embodiment may be purchased directly from the market, and the non-standard structural components described in the specification and drawings may also be processed directly according to the conventional technical common knowledge without any doubt, and the connection manner of the respective parts is a conventional manner well-established in the prior art, and the machines, parts and equipment are of a conventional type in the prior art, so that detailed description thereof is omitted.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The plastic film coating forming and cooling device is characterized by comprising a hollow roller (1) for cooling and forming a plastic film coating, wherein a rotating column (2) is movably connected to the inner wall of one end of the hollow roller (1), a fixing rod (3) is rotatably connected to the center of the rotating column (2) in a penetrating mode, a limiting block (4) enabling the hollow roller (1) to move horizontally in a limiting mode is movably connected to one end, far away from the hollow roller (2), of the hollow roller (1), a L-shaped base (5) is fixedly connected to one end, far away from the hollow roller (1), of the limiting block (4), a filling pipe (6) enabling the fixing rod (3) and the limiting block (4) to be fixedly connected with the inner wall of the hollow roller (1) to be filled with cooling liquid is arranged at the bottom of the filling pipe (6) between the fixing rod (3) and the limiting block (4), and a plurality of through holes for spraying the cooling liquid to the inner wall of the hollow roller (1) are formed in a circulating mode and arranged on the filling pipe (6).

2. The plastic film coating forming and cooling device as claimed in claim 1, wherein: the filling mechanism comprises a cylindrical cavity (7) with two ends of a filling pipe (6) penetrating through and fixedly connected with for placing cooling liquid, and two ends of the filling pipe (6) are symmetrically connected with the outer contour center position of the cylindrical cavity (7), the inner wall symmetric positions of two ends of the cylindrical cavity (7) are symmetrically connected with a first piston plate (8) and a second piston plate (81) which are used for filling cooling liquid into the hollow roller (1) in an inner circulation mode, a bottom fixedly connected with moving rod (9) of the first piston plate (8) is connected with one end of the moving rod (9) far away from the first piston plate (8) through and is slidably connected with the second piston plate (81), a sleeve rod (10) is fixedly connected with one end center position of the second piston plate (81) far away from the first piston plate (8) and is connected with the outer contour of the sleeve rod (10) and the moving rod (9) in a sliding mode, the moving rod (9) and the sleeve rod (10) are close to the outer contour symmetric positions of the bottom and are fixedly connected with a connecting seat (13), and two reciprocating mechanisms for driving the first piston plate (8) and the second piston plate (81) and the reciprocating movement back and back to back are arranged on the connecting seat (13).

3. A plastic film coating shaping and cooling apparatus as set forth in claim 2, wherein: actuating mechanism includes keeping away from stopper (4) on L shape base (5) and is close to first bracing piece of one side fixedly connected with (14) and second bracing piece (15) at edge, and first bracing piece (14) and second bracing piece (15) symmetry set up, the opposite face of first bracing piece (14) and second bracing piece (15) is connected with dwang (16) to the dorsad through the round pin rotation, two the homonymy of dwang (16) is equipped with connecting rod (17), the opposite face that first bracing piece (14) one end was kept away from with one of them dwang (16) is connected with second regulation pole (19) through the round pin rotation, the opposite face that connecting rod (17) was kept away from to second bracing piece (15) one end was kept away from to second regulation pole (19) one end and connecting seat (13) of one side on removal pole (9) are connected through the round pin rotation, connecting rod (17) and another dwang (16) keep away from the opposite face of second bracing piece (15) one end are connected with first regulation pole (18) through the round pin rotation, the one end that connecting rod (17) was kept away from first regulation pole (18) and connecting seat (13) are connected through the round pin rotation.

4. A plastic film coating forming and cooling device as claimed in claim 3, wherein: the bottom bilateral symmetry position of hollow cylinder (1) all rotates and is connected with winding up roller (20), two winding up roller (20) both ends central point puts and runs through and fixedly connected with spliced pole (21), the one end of spliced pole (21) runs through L shape base (5) and swivelling joint, two the one end that L shape base (5) were kept away from in spliced pole (21) runs through and fixedly connected with makes two winding up roller (20) pivoted brake gear (22) and first auxiliary gear (23) in opposite directions, and spliced pole (21) run through first bracing piece (14) and link firmly and the transmission with dwang (16) is coaxial, keeps away from drive by power unit on spliced pole (21) of brake gear (22) one end and rotate.

5. A plastic film coating shaping and cooling apparatus as set forth in claim 4, wherein: be equipped with the complementary unit who gets rid of coating bubble on the plastic film on rotating post (2), complementary unit sets up track groove (211) that make hollow cylinder (1) horizontal reciprocating motion including rotating on post (2) outline, run through and fixedly connected with and track groove (211) inner wall sliding connection's fixture block (101) on hollow cylinder (1), second auxiliary gear (24) that the one end fixedly connected with and the brake gear (22) transmission of hollow cylinder (1) were kept away from in track groove (211), and second auxiliary gear (24) rotate with dead lever (3) and are connected.

6. A plastic film coating forming and cooling device as claimed in claim 3, wherein: the number of the driving mechanisms is two, and the two driving mechanisms are symmetrically connected to the two connecting seats (13).

7. The plastic film coating forming and cooling device as claimed in claim 1, wherein: the bottom through connection of cylindricality cavity (7) has absorbed first connecting pipe (11) to the interior coolant liquid of hollow cylinder (1) in cylindricality cavity (7), the one end that cylindricality cavity (7) were kept away from in first connecting pipe (11) runs through dead lever (3) and with the inner wall swing joint of hollow cylinder (1), one side that cylindricality cavity (7) are close to the bottom runs through and fixedly connected with fills second connecting pipe (12) to hollow cylinder (1) inner wall with the coolant liquid, second connecting pipe (12) and filling pipe (6) intercommunication that are close to hollow cylinder (1) one end.

8. The plastic film coating forming and cooling device as claimed in claim 1, wherein: inner wall that is close to second connecting pipe (12) one end on filling tube (6) is equipped with second check valve (62) that make the interior cooling liquid of cylindricality cavity (7) fill to hollow cylinder (1), the one end that second check valve (62) were kept away from in filling tube (6) runs through and is equipped with first check valve (61) that absorb the cooling liquid in filling tube (6) to cylindricality cavity (7), the one end inner wall that first connecting pipe (11) are close to cylindricality cavity (7) is equipped with and absorbs third check valve (111) to cylindricality cavity (7) with the interior cooling liquid of hollow cylinder (1), the one end inner wall that second connecting pipe (12) are close to cylindricality cavity (7) is equipped with fourth check valve (121) that fills the interior cooling liquid of cylindricality cavity (7) to hollow cylinder (1).