CN110654017A - Semi-automatic pad pasting equipment - Google Patents

Abstract

The invention discloses a semi-automatic film pasting device, which comprises: the film laminating machine comprises a lower frame, a rotating carrying platform, a film supplying mechanism, a film sticking mechanism and a pressure maintaining mechanism, wherein the rotating carrying platform, the film supplying mechanism, the film sticking mechanism and the pressure maintaining mechanism are arranged on a working table surface of the lower frame; a plurality of rotary table jigs for placing products are uniformly distributed on the rotary carrying platform along the same circumference, and the rotary carrying platform is used for driving the rotary table jigs to sequentially pass through the film supply mechanism, the film sticking mechanism and the pressure maintaining mechanism in a rotating manner; the film supply mechanism is used for providing a protective film attached to the surface of a product; the film sticking mechanism is used for sticking the protective film on the upper surface of the product; pressurize mechanism is used for flattening the laminating with the protection film of attached product upper surface, it includes: short side both ends pressurize mechanism, long side both ends pressurize mechanism, extrados pressurize mechanism and intrados pressurize mechanism. The semi-automatic film sticking equipment can stick irregular protective films to products, and is high in film sticking speed, high in efficiency, stable in quality and low in danger coefficient.

Description

Semi-automatic pad pasting equipment

Technical Field

The invention relates to the technical field of machine manufacturing, in particular to semi-automatic film sticking equipment.

Background

The current pad pasting to the curved surface product is mostly artifical, and speed is slow, inefficiency, and the quality is unstable, moreover, uses the silica gel tool that the size is less than the product, however, this tool preparation degree of difficulty and expense are higher, and the life-span is low, and tool face atress is inhomogeneous, forms the bubble easily, and the effect of pad pasting is than relatively poor.

Disclosure of Invention

The invention mainly solves the technical problem of providing semi-automatic film sticking equipment which has the advantages of high film sticking speed, high efficiency and stable quality, reduces the production cost and improves the yield and the production efficiency.

In order to solve the technical problems, the invention adopts a technical scheme that: provided is a semi-automatic film laminating apparatus, including: the film laminating machine comprises a lower frame, a rotating carrying platform, a film supplying mechanism, a film sticking mechanism and a pressure maintaining mechanism, wherein the rotating carrying platform, the film supplying mechanism, the film sticking mechanism and the pressure maintaining mechanism are arranged on a working table surface of the lower frame; a plurality of rotary table jigs for placing products are uniformly distributed on the rotary carrying platform along the same circumference, and the rotary carrying platform is used for driving the rotary table jigs to sequentially pass through the film supply mechanism, the film sticking mechanism and the pressure maintaining mechanism in a rotating manner; the film supply mechanism is used for providing a protective film attached to the surface of a product; the film sticking mechanism is used for sticking the protective film on the upper surface of the product; pressurize mechanism is used for flattening the laminating with the protection film of attached product upper surface, it includes: short side both ends pressurize mechanism, long side both ends pressurize mechanism, extrados pressurize mechanism and intrados pressurize mechanism.

In a preferred embodiment of the invention, the film supply mechanism comprises a film supply fixing plate arranged on the lower frame, a material roll arranged on the film supply fixing plate, a film taking station, a first feeding roller arranged below the film taking station, a driving shaft, a second feeding roller and a waste film collecting wheel, wherein the driving shaft is in transmission connection with a power output shaft of a first servo motor through a belt, a film supply lifting cylinder is arranged right below the driving shaft, and a pressing wheel is arranged on a power output shaft of the film supply lifting cylinder.

In a preferred embodiment of the present invention, the film sticking mechanism includes an X-axis linear module, an X-axis servo motor, a Y-axis linear module, a Y-axis servo motor, and a film taking assembly for absorbing the protective film on the film taking station, the film taking assembly is disposed on a movable end of the Y-axis linear module, the Y-axis servo motor is disposed on a fixed end of the Y-axis linear module, the Y-axis servo motor is configured to drive the film taking assembly to move along a Y-axis direction, the Y-axis linear module is disposed on a movable end of the X-axis linear module, the X-axis servo motor is disposed on a fixed end of the X-axis linear module, and the X-axis servo motor drives the Y-axis linear module to move along the X-axis direction.

In a preferred embodiment of the invention, the membrane taking assembly comprises a membrane taking lifting cylinder fixed on the Y-axis linear module through a mounting plate, a first sliding table cylinder arranged below the membrane taking lifting cylinder, and a connecting plate arranged on a sliding table of the first sliding table cylinder, wherein a membrane taking servo motor is arranged on the connecting plate, an output shaft of the membrane taking servo motor is connected with a hollow rotating platform, a membrane taking plate is arranged below the hollow rotating platform, a plurality of vacuum holes are formed in the membrane taking plate, an induction sheet matched with the sensor is arranged on the membrane taking plate, and a limit screw matched with the induction sheet to limit the number of rotation turns of the membrane taking plate is arranged on the lower surface of the hollow rotating platform.

In a preferred embodiment of the present invention, the dust removing device further comprises an ion wind bar arranged on the lower frame for removing dust on the protective film.

In a preferred embodiment of the present invention, the present invention further comprises a lower CCD camera disposed on the lower frame for detecting the position of the protective film on the film-taking station, and an upper CCD camera for detecting the position of the product in the turntable jig.

In a preferred embodiment of the present invention, the turntable jig includes an air blowing block mounted on the rotating carrier through a fixing bracket, a product jig is mounted in the air blowing block, a vent hole for absorbing a product is formed at the top of the product jig, a first air pipe joint communicated with the vent hole is arranged at a side edge of the product jig, and a second air pipe joint is further arranged on the air blowing block.

In a preferred embodiment of the invention, the short-side two-end pressure maintaining mechanism comprises a short-side pressure maintaining rack, a first guide rail vertically arranged on the short-side pressure maintaining rack, and a sliding block slidably arranged on the first guide rail, wherein a fixed plate is mounted on the sliding block, a second guide rail, a first stepping motor and a second stepping motor are arranged on the fixed plate, a power output end of the first stepping motor is in transmission connection with a first synchronous wheel through a first synchronous belt, and a meshing part clamped with the sliding block is arranged on the first synchronous belt; the roller passes through the gyro wheel mounting panel sliding connection on the second guide rail, the power take off end of second step motor passes through the second hold-in range and is connected with the transmission of second hold-in range, the second hold-in range and the looks joint of gyro wheel mounting panel, first step motor drives the roller is followed the upper and lower removal of length direction of first guide rail, the drive of second step motor the roller is removed along the left and right removal of length direction of second guide rail.

In a preferred embodiment of the present invention, the long side two-end pressure maintaining mechanism comprises a long side pressure maintaining frame, a second sliding table cylinder mounted on the pressure maintaining frame, a first finger cylinder disposed at a lower end of the sliding table of the second sliding table cylinder, and a first rubber band disposed between fingers of the first finger cylinder for maintaining pressure at two ends of the long side of the product.

In a preferred embodiment of the present invention, the extrados pressure maintaining mechanism includes an extrados pressure maintaining frame, a first angle adjusting disc installed on the extrados pressure maintaining frame, a third sliding table cylinder installed on the first angle adjusting disc, a second finger cylinder installed at the lower end of the third sliding table cylinder, and a second rubber band arranged between fingers of the second finger cylinder for maintaining pressure on the extrados surface of the product; the intrados pressurize mechanism includes intrados pressurize frame, installs the second angle adjustment dish in intrados pressurize frame, installs the fourth slip table cylinder on the second angle adjustment dish, installs in the third finger cylinder of fourth slip table cylinder lower extreme and sets up the third rubber band that is used for carrying out the pressurize to the product intrados between the finger of third finger cylinder.

The invention has the beneficial effects that: according to the semi-automatic film pasting equipment, the CCD camera component can ensure the position accuracy of the protective film attached on a product, the equipment is high in film pasting speed, high in efficiency and stable in quality, the labor cost is reduced, and the production efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

FIG. 1 is a schematic overall view of a semi-automatic film laminating apparatus of the present invention;

FIG. 2 is a schematic structural view of a frame of a semi-automatic film laminating apparatus according to the present invention;

FIG. 3 is a top view of a semi-automatic film laminating apparatus removing upper frame of the present invention;

FIG. 4 is a schematic view of a film supply mechanism according to the present invention;

FIG. 5 is a side view of a film supply mechanism of the present invention;

FIG. 6 is a schematic structural view of a film sticking mechanism in the present invention;

FIG. 7 is a schematic view of a membrane module in the membrane attaching mechanism according to the present invention;

FIG. 8 is a schematic view of the structure of the rotary stage of the present invention;

FIG. 9 is a schematic structural view of a product fixture according to the present invention;

FIG. 10 is a schematic structural view of a short-side and two-end pressure maintaining mechanism according to the present invention;

FIG. 11 is a side view of a short side both-end pressurizing mechanism in the present invention;

FIG. 12 is another schematic view of the short-side and two-end pressurizing mechanism according to the present invention;

FIG. 13 is a schematic view showing the structure of a long-side and both-end pressure-holding mechanism according to the present invention;

FIG. 14 is a schematic structural view of an extrados pressure maintaining mechanism according to the present invention;

fig. 15 is a schematic structural view of the intrados pressure maintaining mechanism in the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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.

Referring to fig. 1-3, a semi-automatic film pasting device for pasting a protective film on a circular arc-shaped upper surface of a product according to the present invention comprises: the film laminating machine comprises a lower frame 1, a rotating carrying platform 3, a film supplying mechanism 4, a film sticking mechanism 5 and a pressure maintaining mechanism, wherein the rotating carrying platform 3, the film supplying mechanism 4, the film sticking mechanism 5 and the pressure maintaining mechanism are arranged on a working table surface 2 of the lower frame; a plurality of rotary table jigs 6 for placing products are uniformly distributed on the rotary carrying platform along the same circumference, and the rotary carrying platform is used for driving the rotary table jigs to sequentially pass through the film supply mechanism, the film sticking mechanism and the pressure maintaining mechanism; specifically, the film supply mechanism is used for providing a protective film attached to the surface of a product; the film sticking mechanism is used for sticking the protective film on the upper surface of the product; pressurize mechanism is used for flattening the laminating with the protection film of attached product upper surface, and is specific, and pressurize mechanism includes: short side both ends pressurize mechanism 7, long side both ends pressurize mechanism 8, extrados face pressurize mechanism 9 and intrados pressurize mechanism 10, above-mentioned 4 group's pressurize mechanisms flatten the short side of protection film, long side, outside cambered surface and inboard cambered surface respectively with the product laminating, compare in the manual work with the protection film attached on the product, the attached precision of this equipment is high, has reduced the cost of labor, improves production efficiency.

Further, referring to fig. 4-5, the film supply mechanism 4 includes a film supply fixing plate 41 disposed on the lower frame, a material roll 42 disposed on the film supply fixing plate, a film taking station 43, a first feeding roller 44 disposed below the film taking station, a driving shaft 45, a second feeding roller 46, and a waste film collecting wheel 47, the driving shaft is in transmission connection with a power output shaft of a first servo motor through a belt, the first servo motor is disposed below the driving shaft (not shown), a film supply lifting cylinder 48 is further disposed right below the driving shaft, and a pressing wheel 49 is disposed on the power output shaft of the film supply lifting cylinder.

First servo motor rotates, drive the driving shaft through the belt and rotate, the material area on the material book is after getting the membrane station, pass the second feed roll in proper order, the driving shaft, reach the plastic film waste collection wheel behind the first feed roll, the material book drives first feed roll, the driving shaft, the second feed roll, the rotation of plastic film waste collection wheel, when the plastic film waste passes the driving shaft, supply the membrane lift cylinder to drive the pinch roller and rise and compress tightly the plastic film waste, prevent the plastic film waste fold, warp, avoid appearing the problem of the difficult ejection of compact.

Further, referring to fig. 6-7, the film sticking mechanism 5 includes an X-axis linear module 50, an X-axis servo motor 51, a Y-axis linear module 52, a Y-axis servo motor 53, and a film taking assembly 54 for absorbing the protective film on the film taking station, the film taking assembly is disposed at a movable end of the Y-axis linear module, the Y-axis servo motor is disposed at a fixed end of the Y-axis linear module, the Y-axis servo motor is used for driving the film taking assembly to move along the Y-axis direction, the Y-axis linear module is disposed at a movable end of the X-axis linear module, the X-axis servo motor is disposed at a fixed end of the X-axis linear module, and the X-axis servo motor drives the Y-axis linear module to move along the X-axis direction.

Specifically, the film taking assembly 54 comprises a film taking lifting cylinder 542 fixed on the Y-axis linear module through a mounting plate 541, a first sliding table cylinder 543 arranged below the film taking lifting cylinder, a connecting plate 544 fixedly mounted on the sliding table of the first sliding table cylinder, a film taking servo motor 545 is arranged on the connecting plate, the output shaft of the film taking servo motor is connected with a hollow rotating platform 546, a film taking plate 547 is arranged below the hollow rotating platform, the film taking plate is provided with a plurality of vacuum holes which are connected with a vacuum sucker for sucking products, the film taking plate is provided with a sensing piece 549 which is matched with a sensor 548, and the film taking plate can only rotate for one circle because the film taking plate is connected with an air pipe and other circuits, the lower surface of the hollow rotating platform is provided with a limiting screw (not shown in the figure), which can be matched with the induction sheet to limit the number of rotation turns of the membrane plate.

In a specific embodiment, an X-axis servo motor drives an X-axis linear module to move so as to drive a Y-axis linear module and a membrane taking assembly to move in an X-axis direction, a Y-axis servo motor drives the Y-axis linear module to move so as to drive the membrane taking assembly to move in a Y-axis direction, a membrane taking lifting cylinder presses a membrane sucking plate down to the upper part of a product, the membrane taking lifting cylinder is in floating connection with a connecting plate and directly pushes the connecting plate to descend when descending, the membrane is sucked in a vacuum mode, the membrane taking lifting cylinder ascends, an ion wind rod 11 on a lower rack carries out dust removal treatment on the membrane, the membrane taking plate does not ascend along with the cylinder when the membrane taking lifting cylinder ascends, a CCD camera (not shown in the figure) takes pictures after the membrane is taken to detect the position of a protective membrane, an upper CCD camera 12 detects the position of the product in a rotary table jig, the membrane taking servo, can guarantee the precision of pad pasting, will get membrane mechanism by the cooperation of X, Y sharp module again and move to the top of carousel tool, first slip table cylinder descends, pastes the protection film to the product on.

Further, referring to fig. 8-9, a plurality of rotary table jigs 6 are uniformly distributed on the rotary carrier 3 along the same circumference, a carrier motor 31 is installed below the rotary table jigs, the carrier motor rotates and drives the rotary carrier to rotate through a cam divider, the rotary table jigs 6 comprise air blowing blocks 62 installed on the rotary carrier 3 through fixed brackets 61, product jigs 63 are installed in the air blowing blocks, air vents 64 for absorbing products are formed in the tops of the product jigs, first air pipe joints 65 communicated with the air vents are arranged on the side edges of the product jigs, second air pipe joints 66 are further arranged on the air blowing blocks, the products are manually placed in the rotary table jigs, the products are positioned through internal profiling of the product jigs, the products are inserted into the first air pipe joints through air pipes for ventilation, the products are tightly sucked, the second air pipe joints can also be ventilated after being inserted into the air pipes, and edges of the films can be, preventing unnecessary sticking.

Further, referring to fig. 10-12, the short-side two-end pressure maintaining mechanism 7 includes a short-side pressure maintaining frame 70, a first guide rail 71 vertically disposed on the short-side pressure maintaining frame, and a sliding block 72 slidably disposed on the first guide rail, the sliding block is provided with a fixing plate 73, the fixing plate is provided with a second guide rail 731, a first stepping motor 732, and a second stepping motor 733, specifically, the second guide rail and the first guide rail are perpendicular to each other, a power output end of the first stepping motor is in transmission connection with a first synchronizing wheel 735 through a first synchronizing belt 734, and the first synchronizing belt is provided with a meshing portion 736 engaged with the sliding block; the rolling wheel 74 is slidably connected to the second guide rail through the roller mounting plate 75, the power output end of the second stepping motor is in transmission connection with the second synchronous wheel 738 through a second synchronous belt 737, the second synchronous belt and the roller mounting plate are clamped and are consistent with the mounting connection modes of the first synchronous belt and the sliding block (not shown in the figure), details are omitted here, the first stepping motor drives the rolling wheel to move up and down along the length direction of the first guide rail, the second stepping motor drives the rolling wheel to move left and right along the length direction of the second guide rail, the first stepping motor and the second stepping motor cooperate to drive the rolling wheel to maintain pressure on the product, further, floating extension springs 76 are mounted on two sides of the rolling wheel, and rolling displacement differences are absorbed through the floating extension springs to maintain the rolling pressure on the surface of the product.

Further, please refer to fig. 13, the long-side two-end pressure maintaining mechanism 8 includes a long-side pressure maintaining frame 81, a second sliding table cylinder 82 installed on the pressure maintaining frame, a first finger cylinder 83 disposed at a lower end of the sliding table of the second sliding table cylinder, and a first rubber band 85 disposed between the fingers 84 of the first finger cylinder and used for maintaining pressure at two ends of the long side of the product, wherein the second sliding table cylinder descends, the first finger cylinder drives the fingers to close, and the first rubber band 85 maintains pressure on the product.

Further, referring to fig. 14-15, the extrados pressure maintaining mechanism 9 includes an extrados pressure maintaining frame 91, a first angle adjusting disc 92 installed on the extrados pressure maintaining frame, a third sliding table cylinder 93 installed on the first angle adjusting disc, a second finger cylinder 94 installed at the lower end of the third sliding table cylinder, and a second rubber band 96 arranged between fingers 95 of the second finger cylinder for maintaining pressure on the extrados of the product; the intrados pressurize mechanism 10 includes intrados pressurize frame 101, installs the second angle adjustment dish 102 in the intrados pressurize frame, installs the fourth slip table cylinder 103 on the second angle adjustment dish, installs in the third of fourth slip table cylinder lower extreme and points cylinder 104 and set up and be used for carrying out the third rubber band 106 of pressurize to the product intrados between the finger 105 of third finger cylinder.

The semi-automatic film sticking equipment has the beneficial effects that: according to the semi-automatic film pasting equipment, the CCD camera component can ensure the position accuracy of the protective film attached on a product, the equipment is high in film pasting speed, high in efficiency and stable in quality, the labor cost is reduced, and the production efficiency is improved.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A semi-automatic pad pasting equipment which is characterized by comprising: the film laminating machine comprises a lower frame, a rotating carrying platform, a film supplying mechanism, a film sticking mechanism and a pressure maintaining mechanism, wherein the rotating carrying platform, the film supplying mechanism, the film sticking mechanism and the pressure maintaining mechanism are arranged on a working table surface of the lower frame; a plurality of rotary table jigs for placing products are uniformly distributed on the rotary carrying platform along the same circumference, and the rotary carrying platform is used for driving the rotary table jigs to sequentially pass through the film supply mechanism, the film sticking mechanism and the pressure maintaining mechanism in a rotating manner; the film supply mechanism is used for providing a protective film attached to the surface of a product; the film sticking mechanism is used for sticking the protective film on the upper surface of the product; pressurize mechanism is used for flattening the laminating with the protection film of attached product upper surface, it includes: short side both ends pressurize mechanism, long side both ends pressurize mechanism, extrados pressurize mechanism and intrados pressurize mechanism.

2. The semi-automatic film laminating equipment according to claim 1, wherein the film supplying mechanism comprises a film supplying fixing plate arranged on the lower frame, a material roll arranged on the film supplying fixing plate, a film taking station, a first feeding roller arranged below the film taking station, a driving shaft, a second feeding roller and a waste film collecting wheel, the driving shaft is in transmission connection with a power output shaft of a first servo motor through a belt, a film supplying lifting cylinder is arranged right below the driving shaft, and a pressing wheel is arranged on a power output shaft of the film supplying lifting cylinder.

3. The semi-automatic film sticking equipment according to claim 2, wherein the film sticking mechanism comprises an X-axis linear module, an X-axis servo motor, a Y-axis linear module, a Y-axis servo motor and a film taking assembly for sucking the protective film on the film taking station, the film taking assembly is arranged at the movable end of the Y-axis linear module, the Y-axis servo motor is arranged at the fixed end of the Y-axis linear module and is used for driving the film taking assembly to move along the Y-axis direction, the Y-axis linear module is arranged at the movable end of the X-axis linear module, the X-axis servo motor is arranged at the fixed end of the X-axis linear module, and the X-axis servo motor drives the Y-axis linear module to move along the X-axis direction.

4. The semi-automatic pad pasting equipment of claim 3, characterized in that, get the membrane module and include fix through the mounting panel get membrane lift cylinder on the Y axle straight line module, set up in getting first slip table cylinder of membrane lift cylinder below, set up in the connecting plate on the slip table of first slip table cylinder, be provided with on the connecting plate and get membrane servo motor, the output shaft who gets membrane servo motor has cavity rotary platform, the below of cavity rotary platform is equipped with gets the diaphragm plate, get and seted up a plurality of vacuum hole on the diaphragm plate, it is provided with the response piece with sensor complex on the diaphragm plate to get, cavity rotary platform lower surface is equipped with and responds to piece cooperation restriction get the spacing screw of diaphragm plate number of revolutions.

5. The semi-automatic film laminating device of claim 1, further comprising an ion air bar arranged on the lower frame and used for removing dust on the protective film.

6. The semi-automatic film laminating equipment according to claim 4, further comprising a lower CCD camera arranged on the lower frame and used for detecting the position of the protective film on the film taking station and an upper CCD camera used for detecting the position of a product in the rotary disc jig.

7. The semi-automatic film laminating equipment of claim 1, wherein the turntable jig comprises an air blowing block which is mounted on a rotating carrier through a fixed support, a product jig is mounted in the air blowing block, the top of the product jig is provided with an air vent for absorbing a product, the side edge of the product jig is provided with a first air pipe joint communicated with the air vent, and the air blowing block is further provided with a second air pipe joint.

8. The semi-automatic film laminating equipment according to claim 1, wherein the short side two-end pressure maintaining mechanism comprises a short side pressure maintaining rack, a first guide rail vertically arranged on the short side pressure maintaining rack, and a sliding block slidably arranged on the first guide rail, a fixing plate is mounted on the sliding block, a second guide rail, a first stepping motor and a second stepping motor are arranged on the fixing plate, a power output end of the first stepping motor is in transmission connection with a first synchronous wheel through a first synchronous belt, and a meshing part clamped with the sliding block is arranged on the first synchronous belt; the roller passes through the gyro wheel mounting panel sliding connection on the second guide rail, the power take off end of second step motor passes through the second hold-in range and is connected with the transmission of second hold-in range, the second hold-in range and the looks joint of gyro wheel mounting panel, first step motor drives the roller is followed the upper and lower removal of length direction of first guide rail, the drive of second step motor the roller is removed along the left and right removal of length direction of second guide rail.

9. The semi-automatic film laminating device of claim 1, wherein the long-side two-end pressure maintaining mechanism comprises a long-side pressure maintaining frame, a second sliding table cylinder mounted on the pressure maintaining frame, a first finger cylinder arranged at the lower end of the sliding table of the second sliding table cylinder, and a first rubber band arranged between fingers of the first finger cylinder and used for maintaining pressure at two ends of the long side of the product.

10. The semi-automatic film laminating equipment of claim 1, wherein the extrados pressure maintaining mechanism comprises an extrados pressure maintaining rack, a first angle adjusting disc installed on the extrados pressure maintaining rack, a third sliding table air cylinder installed on the first angle adjusting disc, a second finger air cylinder installed at the lower end of the third sliding table air cylinder, and a second rubber band arranged between fingers of the second finger air cylinder and used for maintaining pressure on the extrados of the product; the intrados pressurize mechanism includes intrados pressurize frame, installs the second angle adjustment dish in intrados pressurize frame, installs the fourth slip table cylinder on the second angle adjustment dish, installs in the third finger cylinder of fourth slip table cylinder lower extreme and sets up the third rubber band that is used for carrying out the pressurize to the product intrados between the finger of third finger cylinder.

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