CN111847047A - Full-automatic production line for processing composite film - Google Patents

Abstract

The invention relates to the field of film production, in particular to a full-automatic production line for processing a composite film; the automatic feeding device comprises a box body, a material guide rod, a material collecting barrel, a supporting unit and an automatic barrel loading unit, wherein the box body comprises a protecting cover, a bottom plate, a feeding hole and a discharging hole; the utility model discloses a motor, including bottom plate rigid coupling, feed inlet, bearing plate, motor rigid coupling, power wheel rigid coupling, the bottom of bottom plate rigid coupling at the protecting cover, the lateral part at the protecting cover is seted up to the feed inlet, the discharge gate is seted up on the protecting cover at the opposite side that is located the feed inlet, guide pole rigid coupling is inside the protecting cover, the aggregate cylinder is established at the protecting cover inherent bottom plate top that is located, the bracing piece rigid coupling is on the top of bottom plate, the bearing plate articulates on the bracing piece top, the lateral wall department of motor rigid coupling at the bearing plate, the power wheel rigid coupling is at the output of motor, through setting up automatic feeding unit, can collect at the aggregate cylinder of discharge gate department and accomplish back automatic.

Description

Full-automatic production line for processing composite film

Technical Field

The invention relates to the field of film production, in particular to a full-automatic production line for processing a composite film.

Background

By compounding, materials with comprehensive properties of each single material can be obtained, and used base materials mainly comprise plastic films (such as Polyethylene (PE), polypropylene (PP), polystyrene, polyvinyl chloride (PVC), Polyester (PET) and the like), cellophane, paper, metal foil (AL) and the like; the base materials can be compounded by adopting an extrusion compounding method or by means of adhesive; polyethylene is taken as an example. The extrusion compounding method comprises the steps of putting polyethylene into a hopper, extruding a molten film with a certain thickness from a slit through an extruder, compounding the molten film with a fed base material between a pressure roller and a cooling roller, and coiling to obtain a product; introducing a second base material from the cooling roller to prepare a polyethylene sandwich three-layer composite film; if polyethylene is further compounded on two sides of the composite film, the five-layer composite film can be obtained; the polyethylene composite film has quite wide application.

At present, automatic winding is mostly adopted in a film production line in the prior art, a collected material collecting barrel is replaced manually, obviously, the efficiency of the replacement mode is low, and in long-term operation, the problem of potential safety hazards is caused due to the fact that a wound film is heavy, so that a full-automatic production line for processing the composite film is provided.

Disclosure of Invention

The invention provides a full-automatic production line for processing a composite film, aiming at the problems that in the prior art, collected material collecting barrels are mostly replaced manually, obviously, the replacement mode is low in efficiency, and in long-term operation, because a rolled film roll is heavy, some potential safety hazards exist.

The technical scheme adopted by the invention for solving the technical problems is as follows: a full-automatic production line for processing a composite film comprises a box body, a material guide rod, a material collecting barrel, a supporting unit and an automatic barrel loading unit, wherein the box body comprises a protecting cover, a bottom plate, a feeding hole and a discharging hole; the material collecting barrel is arranged in the protecting cover and is positioned at the top of the bottom plate, and the supporting unit comprises a supporting rod, a bearing plate, a motor, a power wheel, a cylinder, a sealing plate and a push rod; the automatic tube feeding unit comprises a material receiving plate, a spring plate, a pressure bar, a rebound assembly and a cutting assembly, wherein the support bar is fixedly connected to the top end of the bottom plate, the bearing plate is hinged to the top end of the support bar, the motor is fixedly connected to the side wall of the bearing plate, the power wheel is fixedly connected to the output end of the motor, the cylinder is fixedly connected to the top end of the bottom plate, the sealing plate is slidably connected to the inside of the cylinder, the bottom end of the push rod is hinged to the top of the sealing plate, the other end of the push rod; the collecting plate is fixedly connected to the top of the bottom plate, the springboard is hinged to one end, close to the feeding port, of the collecting plate, the pressing rod is fixedly connected to the bottom side of the springboard, the rebounding assembly is arranged at the bottom of the springboard, and the cutting assembly is arranged at the top, located on the bottom plate, of the protecting cover.

Specifically, a cylinder feeding unit is arranged inside the protecting cover and comprises a fixed seat, a warping plate, a second supporting rod and an anti-skidding assembly; the fixing base rigid coupling is in the lateral wall department of being close to the feed inlet in the inside of protecting cover, one side that second branch rigid coupling is close to the discharge gate on the fixing base, the wane articulates on second branch, anti-skidding subassembly is established in the inside of fixing base.

Specifically, the rebounding assembly comprises a first slide rail, a fixed block, a first slide block, a first support rod, a push plate and a spring; first slide rail rigid coupling is close to one side of discharge gate on the bottom plate, the one end that the fixed block rigid coupling is close to the discharge gate in first slide rail one side, first slider sliding connection is on first slide rail, first bracing piece bottom is articulated on first slider, the first bracing piece other end articulates in the springboard bottom, the push pedal rigid coupling is close to the one end of fixed block on first slider, the spring rigid coupling is between push pedal and fixed block.

Specifically, the cutting assembly comprises a first piston cylinder, a pull rod, a cutting knife, a knife holder and a slide rod; the first piston cylinder is fixedly connected to the top of the bottom plate, the pull rod is slidably connected to the first piston cylinder, the cutter holder is fixedly connected to the top end of the pull rod, the cutting knife is fixedly connected to the bottom end of the cutter holder, and the slide rod is fixedly connected to the pull rod and located at a position corresponding to the press rod.

Specifically, the anti-skid assembly comprises a second slide rail, a second slide block, a third support rod, a baffle, a second piston cylinder, a plug rod and a fourth support rod; the utility model discloses a stopper rod, including fixing base, second slide rail, third branch, baffle, fourth branch, second slide rail rigid coupling, second slider sliding connection is on the second slide rail in the fluting of fixing base, third branch articulates at second slider top, the baffle articulates on third branch top, the baffle middle part articulates at fixing base fluting top, second piston cylinder rigid coupling is close to the position department of discharge gate in the fixing base, stopper rod sliding connection is on the second piston cylinder, fourth branch bottom articulates on the second slider, the fourth branch other end articulates in stopper rod one side.

Specifically, the pressing rod is provided with a sliding groove corresponding to the sliding rod.

Specifically, the material guide rods on the bottom plate are provided with a plurality of groups.

Specifically, the wane is provided with a groove corresponding to the material collecting barrel.

The invention has the beneficial effects that:

(1) according to the full-automatic production line for processing the composite film, the automatic feeding unit is arranged, so that the material collecting barrel at the discharge port can be automatically switched to the next material collecting barrel after the material collecting barrel is collected, a step of manual operation is omitted, and potential safety hazards in the production process are avoided.

(2) According to the full-automatic production line for processing the composite film, the anti-slip assembly is arranged, so that the phenomenon that a subsequent material collecting barrel is blocked when the composite film is automatically fed can be avoided, and the working efficiency of the whole production line is further improved.

(3) According to the full-automatic production line for processing the composite film, the material collecting plates are arranged at the positions of the discharge holes, so that the material collecting barrels cannot randomly roll after being collected, and the new material collecting barrels can be pushed to the corresponding positions by arranging the springback assemblies, so that the problem of dislocation of automatic feeding of the barrels is avoided.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 1;

FIG. 4 is an enlarged view of the portion B shown in FIG. 2;

FIG. 5 is an enlarged view of the portion C shown in FIG. 2;

FIG. 6 is an enlarged view of the portion D shown in FIG. 2;

in the figure: 1. a box body; 11. a protective cover; 12. a base plate; 13. a feed inlet; 14. a discharge port; 2. a material guiding rod; 3. a material collecting barrel; 4. a support unit; 41. a support bar; 42. a bearing plate; 43. a motor; 44. a power wheel; 45. a cylinder; 46. a sealing plate; 47. a push rod; 5. an automatic bobbin loading unit; 51. a material collecting plate; 52. a gangboard; 53. a pressure lever; 54. a rebound assembly; 541. a first slide rail; 542. a fixed block; 543. a first slider; 544. a first support bar; 545. pushing the plate; 546. a spring; 55. a cutting assembly; 551. a first piston cylinder; 552. a pull rod; 553. a cutting knife; 554. a tool apron; 555. a slide bar; 6. a barrel feeding unit; 61. a fixed seat; 62. a seesaw; 63. a second support bar; 64. an anti-skid component; 641. a second slide rail; 642. a second slider; 643. a third support bar; 644. a baffle plate; 645. a second piston cylinder; 646. a stopper rod; 647. and a fourth support bar.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-6, the full-automatic production line for processing a composite film according to the present invention includes a box body 1, a material guiding rod 2, a material collecting barrel 3, a supporting unit 4, and an automatic barrel loading unit 5, wherein the box body 1 includes a protecting cover 11, a bottom plate 12, a feeding port 13, and a discharging port 14; the bottom plate 12 is fixedly connected to the bottom of the protecting cover 11, the feed port 13 is arranged on the side portion of the protecting cover 11, the discharge port 14 is arranged on the protecting cover 11 and is positioned on the other side of the feed port 13, the material guide rod 2 is fixedly connected inside the protecting cover 11, the material collecting cylinder 3 is arranged inside the protecting cover 11 and is positioned on the top of the bottom plate 12, and the supporting unit 4 comprises a supporting rod 41, a bearing plate 42, a motor 43, a power wheel 44, an air cylinder 45, a sealing plate 46 and a push rod 47; the supporting rod 41 is fixedly connected to the top end of the bottom plate 12, the bearing plate 42 is hinged to the top end of the supporting rod 41, the motor 43 is fixedly connected to the side wall of the bearing plate 42, the power wheel 44 is fixedly connected to the output end of the motor 43, the cylinder 45 is fixedly connected to the top end of the bottom plate 12, the sealing plate 46 is slidably connected to the inside of the cylinder 45, the bottom end of the push rod 47 is hinged to the top of the sealing plate 46, the other end of the push rod 47 is hinged to the bottom of the bearing plate 42, and the automatic tube feeding unit 5 comprises a material receiving plate 51, a spring plate 52, a pressure rod 53; the material receiving plate 51 is fixedly connected to the top of the bottom plate 12, the springboard 52 is hinged to the material receiving plate 51 at one end close to the feed port 13, the pressure lever 53 is fixedly connected to the bottom side of the springboard 52, the rebounding assembly 54 is arranged at the bottom of the springboard 52, and the cutting assembly 55 is arranged in the protective cover 11 and is located at the top of the bottom plate 12; when the composite film winding machine works, a composite film enters from the feed inlet 13, then is wound on the material collecting barrel 3 through the material guide rod 2, the cutting assembly 55 is pressed down through the pressing rod 53 to cut the composite film, and then the springback assembly 54 is stretched to reset the springboard 52, the pressing rod 53 and the cutting assembly 55 to perform the next winding work.

As a specific embodiment of the full-automatic production line for processing the composite film, a tube feeding unit 6 is arranged inside the protecting cover 11, and the tube feeding unit 6 comprises a fixed seat 61, a warping plate 62, a second supporting rod 63 and an anti-slip assembly 64; the fixed seat 61 is fixedly connected with the inner side of the protecting cover 11 at the side wall close to the feeding hole 13, the second supporting rod 63 is fixedly connected with one side of the fixed seat 61 close to the discharging hole 14, the warping plate 62 is hinged on the second supporting rod 63, and the anti-skid component 64 is arranged in the fixed seat 61; in the embodiment of the fully automatic production line for processing the composite film, when the material collecting barrel 3 on the bearing plate 42 contacts the power wheel 44 at the output end of the motor 43, the material collecting barrel rotates, and then a new winding operation is started.

As a specific embodiment of the full-automatic production line for processing a composite film according to the present invention, the rebounding assembly 54 includes a first slide rail 541, a fixed block 542, a first slide block 543, a first support rod 544, a push plate 545 and a spring 546; the first slide rail 541 is fixedly connected to one side of the bottom plate 12 close to the discharge hole 14, the fixed block 542 is fixedly connected to one end of one side of the first slide rail 541 close to the discharge hole 14, the first slide block 543 is slidably connected to the first slide rail 541, the bottom end of the first support rod 544 is hinged to the first slide block 543, the other end of the first support rod 544 is hinged to the bottom of the jump board 52, the push plate 545 is fixedly connected to one end of the first slide block 543 close to the fixed block 542, and the spring 546 is fixedly connected between the push plate 545 and the fixed block 542; in the following springback process, the spring 546 pushes the push plate 545 under the fixing of the fixing block 542, so that the first slide 543 slides towards the feed opening 13 on the first slide rail 541, the first support rod 544 is pushed up, and the material collecting barrel 3 on the ramp plate 52 is sent to the material collecting plate 51.

As a specific embodiment of the fully automatic production line for processing a composite film according to the present invention, the cutting assembly 55 includes a first piston cylinder 551, a pull rod 552, a cutting knife 553, a knife seat 554 and a slide rod 555; the first piston cylinder 551 is fixedly connected to the top of the bottom plate 12, the pull rod 552 is slidably connected to the first piston cylinder 551, the tool holder 554 is fixedly connected to the top end of the pull rod 552, the cutting knife 553 is fixedly connected to the bottom end of the tool holder 554, and the slide rod 555 is fixedly connected to the pull rod 552 at a position corresponding to the press rod 53; in the embodiment of the fully automatic production line for processing a composite film according to the present invention, when the pressing rod 53 moves downward, the sliding rod 555 of the pulling rod 552 moves in the sliding slot of the pressing rod 53, and further, the pulling rod 552 is pressed downward, and the cutting knife 553 of the knife holder 554 cuts the composite film.

As a specific embodiment of the fully automatic production line for processing a composite film according to the present invention, the anti-slip assembly 64 includes a second slide rail 641, a second slide block 642, a third support rod 643, a baffle 644, a second piston cylinder 645, a plug 646, and a fourth support rod 647; the second sliding rail 641 is fixedly connected in a groove of the fixed seat 61, the second sliding block 642 is slidably connected on the second sliding rail 641, the third supporting rod 643 is hinged at the top of the second sliding block 642, the baffle 644 is hinged at the top end of the third supporting rod 643, the middle part of the baffle 644 is hinged at the top of the groove of the fixed seat 61, the second piston cylinder 645 is fixedly connected in the fixed seat 61 at a position close to the discharge hole 14, the plug rod 646 is slidably connected on the second piston cylinder 645, the bottom end of the fourth supporting rod 647 is hinged on the second sliding block 642, and the other end of the fourth supporting rod 647 is hinged at one side of the plug rod 646; when the tilting plate 62 is lifted, the air in the rodless cavity of the second piston cylinder 645 pushes the plug 646 upwards, so that the fourth strut 647 pulls the second slide block 642 towards the discharge hole 14, and then the third strut 643 pulls the baffle 644 downwards, so that the other end of the baffle 644 tilts, thereby blocking the subsequent material collecting barrel 3 and preventing the subsequent material collecting barrel 3 from being pushed forwards to block the traveling path of the material collecting barrel 3.

As a specific embodiment of the full-automatic production line for processing the composite film, a chute corresponding to the slide bar 555 is formed on the press bar 53; the sliding groove on the pressure lever 53 can enable the sliding rod 555 to move up and down normally.

As a specific embodiment of the full-automatic production line for processing the composite film, a plurality of groups of material guide rods 2 are arranged on the bottom plate 12; the multiple groups of material guiding rods 2 are used for better guiding the composite film inside the protecting cover 11.

As a specific embodiment of the full-automatic production line for processing the composite film, a groove corresponding to the material collecting barrel 3 is formed on the warping plate 62; the groove on the rocker 62 is for the collecting barrel 3 to stay smoothly, and then wait for a barrel-changing operation.

When the composite film winding machine is used, a composite film enters from the feed inlet 13 and then is wound on the material collecting barrel 3 through the material guide rod 2, when the composite film wound on the material collecting barrel 3 reaches a certain weight, the bearing plate 42 inclines downwards, the sealing plate 46 in the cylinder 45 descends slowly, the fully loaded material collecting barrel 3 is conveyed to the springboard 52, the cutting assembly 55 is pressed down through the pressure rod 53 to cut the composite film, and then the springback assembly 54 is stretched to reset the springboard 52, the pressure rod 53 and the cutting assembly 55 for the next winding work; when the cutting assembly 55 is lifted, the material collecting barrel 3 on the fixed seat 61 rolls onto the bearing plate 42 under the guidance of the tilting plate 62, and when the material collecting barrel 3 on the bearing plate 42 contacts the power wheel 44 at the output end of the motor 43, the material collecting barrel rotates, so that new winding work is started; during the compression process of the rebound assembly 54, the first slider 543 slides on the first slide rail 541 towards the fixed block 542 to extrude the spring 546, at this time, the first rod 544 inclines towards the feed port 13, during the subsequent rebound process, the spring 546 pushes the push plate 545 under the fixation of the fixed block 542, so that the first slider 543 slides on the first slide rail 541 towards the feed port 13 to push up the first rod 544, and the material collecting barrel 3 on the ramp 52 is sent to the material collecting plate 51; when the pressing rod 53 moves downwards, the sliding rod 555 on the pull rod 552 moves in the sliding groove of the pressing rod 53, so that the pull rod 552 is pressed downwards, at this time, the cutting knife 553 on the knife seat 554 cuts off the composite film, when the pull rod continues to descend, the warping plate 62 is pressed down, the material collecting barrel 3 on the upper portion of the warping plate is conveyed to the bearing plate 42, during the rebound process of the rebound assembly 54, the pull rod 552 also rises inside the first piston cylinder 551, so that the knife seat 554 is lifted up, and the falling path of the material collecting barrel 3 is not blocked; in order to avoid the problem that the subsequent material collecting barrel 3 blocks the barrel feeding path when the tilting plate 62 is lifted, a baffle 644 is arranged inside the fixed seat 61, when the tilting plate 62 falls, air inside the rodless cavity of the second piston cylinder 645 is squeezed, the fourth strut 647 pushes the second slider 642 on the second slide rail 641 towards the material inlet 13, so that the third strut 643 pushes the baffle 644 to prevent the baffle 644 from tilting to block the path of the material collecting barrel 3, when the tilting plate 62 is lifted, air inside the rodless cavity of the second piston cylinder 645 pushes the plug 646 upwards to pull the fourth strut 647 towards the material outlet 14, then the third strut 643 pulls the baffle 644 downwards to tilt the other end of the baffle 644 to block the subsequent material collecting barrel 3, so that the subsequent material collecting barrel 3 is prevented from being pushed forwards to block the traveling path of the material collecting barrel 3; the sliding groove on the pressure lever 53 can enable the sliding rod 555 to normally move up and down; the multiple groups of material guide rods 2 are used for better guiding the composite film in the protective cover 11; the groove on the rocker 62 is for the collecting barrel 3 to stay smoothly, and then wait for a barrel-changing operation.

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

Claims (8)

1. The utility model provides a full-automatic production line of composite film processing usefulness which characterized in that: the automatic feeding device comprises a box body (1), a material guiding rod (2), a material collecting barrel (3), a supporting unit (4) and an automatic barrel feeding unit (5), wherein the box body (1) comprises a protective cover (11), a bottom plate (12), a feeding hole (13) and a discharging hole (14); the bottom plate (12) is fixedly connected to the bottom of the protective cover (11), the feed inlet (13) is formed in the side portion of the protective cover (11), the discharge outlet (14) is formed in the other side, located on the feed inlet (13), of the protective cover (11), the material guide rod (2) is fixedly connected to the inside of the protective cover (11), the material collecting barrel (3) is arranged in the protective cover (11) and located at the top of the bottom plate (12), and the supporting unit (4) comprises a supporting rod (41), a bearing plate (42), a motor (43), a power wheel (44), an air cylinder (45), a sealing plate (46) and a push rod (47); the automatic cylinder feeding unit comprises a support rod (41), a bearing plate (42), a motor (43), a power wheel (44), a cylinder (45), a sealing plate (46), a push rod (47), a rebound assembly (54) and a cutting assembly (55), wherein the support rod (41) is fixedly connected to the top end of a bottom plate (12), the bearing plate (42) is hinged to the top end of the support rod (41), the motor (43) is fixedly connected to the side wall of the bearing plate (42), the power wheel (44) is fixedly connected to the output end of the motor (43), the cylinder (45) is fixedly connected to the top end of the bottom plate (12), the sealing plate (46) is slidably connected to the inside of the cylinder (45), the bottom end of the push rod (47) is hinged to the top of the sealing plate (46), the other; the collecting plate (51) is fixedly connected to the top of the bottom plate (12), the springboard (52) is hinged to one end, close to the feed port (13), of the collecting plate (51), the pressing rod (53) is fixedly connected to the bottom side of the springboard (52), the rebounding assembly (54) is arranged at the bottom of the springboard (52), and the cutting assembly (55) is arranged at the top, located on the bottom plate (12), of the protecting cover (11).

2. The full-automatic production line for processing the composite film according to claim 1, wherein the full-automatic production line comprises: a cylinder feeding unit (6) is arranged in the protecting cover (11), and the cylinder feeding unit (6) comprises a fixed seat (61), a warping plate (62), a second supporting rod (63) and an anti-skid assembly (64); fixing base (61) rigid coupling is in the lateral wall department of being close to feed inlet (13) in the inside of protecting cover (11), one side that second branch (63) rigid coupling is close to discharge gate (14) on fixing base (61), wane (62) articulate on second branch (63), establish the inside at fixing base (61) in anti-skidding subassembly (64).

3. The full-automatic production line for processing the composite film according to claim 2, wherein: the rebounding assembly (54) comprises a first sliding rail (541), a fixed block (542), a first sliding block (543), a first supporting rod (544), a push plate (545) and a spring (546); first slide rail (541) rigid coupling is close to one side of discharge gate (14) on bottom plate (12), fixed block (542) rigid coupling is close to the one end of discharge gate (14) in first slide rail (541) one side, first slider (543) sliding connection is on first slide rail (541), first branch (544) bottom articulates on first slider (543), first branch (544) other end articulates in springboard (52) bottom, push pedal (545) rigid coupling is close to the one end of fixed block (542) on first slider (543), spring (546) rigid coupling is between push pedal (545) and fixed block (542).

4. The full-automatic production line for processing the composite film according to claim 3, wherein the full-automatic production line comprises: the cutting assembly (55) comprises a first piston cylinder (551), a pull rod (552), a cutting knife (553), a knife holder (554) and a slide rod (555); the first piston cylinder (551) is fixedly connected to the top of the bottom plate (12), the pull rod (552) is slidably connected to the first piston cylinder (551), the cutter seat (554) is fixedly connected to the top end of the pull rod (552), the cutter (553) is fixedly connected to the bottom end of the cutter seat (554), and the sliding rod (555) is fixedly connected to the pull rod (552) at a position corresponding to the pressing rod (53).

5. The full-automatic production line for processing the composite film according to claim 4, wherein: the anti-skid assembly (64) comprises a second sliding rail (641), a second sliding block (642), a third strut (643), a baffle (644), a second piston cylinder (645), a plug rod (646) and a fourth strut (647); the second sliding rail (641) is fixedly connected in a groove of the fixed seat (61), the second sliding block (642) is slidably connected on the second sliding rail (641), the third supporting rod (643) is hinged at the top of the second sliding block (642), the baffle (644) is hinged at the top end of the third supporting rod (643), the middle of the baffle (644) is hinged at the top of the groove of the fixed seat (61), the second piston cylinder (645) is fixedly connected in the fixed seat (61) at a position close to the discharge hole (14), the plug rod (646) is slidably connected on the second piston cylinder (645), the bottom end of the fourth supporting rod (647) is hinged on the second sliding block (642), and the other end of the fourth supporting rod (647) is hinged on one side of the plug rod (646).

6. The full-automatic production line for processing the composite film according to claim 5, wherein: the pressure lever (53) is provided with a sliding groove corresponding to the sliding rod (555).

7. The full-automatic production line for processing the composite film according to claim 6, wherein: a plurality of groups of material guide rods (2) are arranged on the bottom plate (12).

8. The full-automatic production line for processing the composite film according to claim 7, wherein: and a groove corresponding to the material collecting barrel (3) is arranged on the warping plate (62).

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