CN112319010A - Alloy plate film covering processing system - Google Patents

Abstract

The invention relates to an alloy plate film coating processing system which comprises a working cavity, a film coating device, a fixed clamping device, a smoothing device and an exhaust device, wherein the working cavity is of a rectangular frame structure with an opening at the upper end, the fixed clamping device is installed on the bottom surface inside the working cavity, the film coating device is arranged inside the working cavity above the fixed clamping device, the smoothing device is arranged inside the working cavity above the film coating device, the exhaust device is installed above the smoothing device, and the exhaust device is located at the upper end of the working cavity. High labor cost, difficult discharge of bubbles, poor film coating effect and the like.

Description

Alloy plate film covering processing system

Technical Field

The invention relates to the technical field of alloy plate processing, in particular to an alloy plate film coating processing system.

Background

The alloy plate is a new technology and material, has high heat strength and oxidation resistance at high temperature, and has certain hydrogen corrosion resistance.

In order to enable the alloy plate to have more excellent performance, the alloy plate is generally subjected to film coating treatment, the corrosion resistance and rust resistance effects of the alloy plate after film coating are better, the alloy plate after film coating is smooth and clean in appearance, good in decoration and good in hand feeling, the alloy plate after film coating is excellent in processing performance, and the alloy plate is not easy to damage in the processing process.

When the existing method for processing and laminating the alloy plate is generally adopted, the processing mode is long in consumed time, the laminating effect is not ideal, and the alloy plate cannot be effectively laminated for too long time, so that how to enable the alloy plate laminating processing system to quickly and effectively laminate the alloy plates with various lengths is a problem to be solved by technical personnel in the technical field.

Disclosure of Invention

In order to solve the problems, the invention provides an alloy plate film coating processing system which comprises a working cavity, a film coating device, a fixed clamping device, a smoothing device and an exhaust device, wherein the working cavity is of a rectangular frame structure with an opening at the upper end, the fixed clamping device is arranged on the bottom surface inside the working cavity, the film coating device is arranged above the fixed clamping device inside the working cavity, the smoothing device is arranged above the film coating device inside the working cavity, the exhaust device is arranged above the smoothing device, and the exhaust device is arranged at the upper end of the working cavity. The film covering device is used for performing film covering treatment on the upper end face of the alloy plate, then the flattening device is started, the flattening device can roll the film on the alloy plate, finally the exhaust device is started, and the exhaust device performs bubble discharging treatment after the film covering treatment is performed on the alloy plate.

The fixed clamping device comprises fixed sliding blocks, clamping blocks and fixed spring rods, wherein fixed sliding grooves are symmetrically arranged on the left and right sides of the inner bottom surface of the working cavity, four groups of fixed sliding blocks are symmetrically arranged in the fixed sliding grooves, the fixed sliding blocks are of a cross-shaped structure, the front two groups of fixed sliding blocks are fixedly arranged at the front ends of the inner walls of the fixed sliding grooves through connecting rods, the rear two groups of fixed sliding blocks are connected with the fixed spring rods, one ends of the fixed spring rods, far away from the fixed sliding blocks, are arranged at the rear ends of the inner walls of the fixed sliding grooves, the clamping blocks are arranged at the upper ends of the fixed sliding blocks, are of an L-shaped structure, when the fixed clamping device works, one ends of alloy plates are firstly placed at the inner side ends of the clamping blocks, far away from one side of the fixed spring rods, then the fixed spring rods, thereby achieving the effect of fixing and clamping various alloy plates.

The film covering device comprises a film covering roller, a protective film, a first electric slider and a rotating motor, wherein the first electric slider is arranged on the left inner side wall and the right inner side wall of the working cavity, the rotating motor is arranged on the first electric slider at one end, the film covering roller is arranged on an output shaft of the rotating motor, one end of the film covering roller, which is far away from the rotating motor, is connected to the first electric slider at the other end through a fixed connecting rod, the protective film is wound on the film covering roller, and when the film covering device, after the alloy plate is placed on the fixed clamping device to be clamped, the protective film is torn to a section, so that the adhesive end of the protective film is placed on one end of the alloy plate, then the first electric slide block and the rotating motor are started, the film covering roller rotates under the action of the rotating motor, thereby make the last winding protection film of tectorial membrane gyro wheel rotate, thereby first electronic slider starts to drive the protection film and moves forward for the viscidity end on the protection film pastes on whole alloy panel up end.

The smoothing device comprises a second electric slider, a fixed square plate, a smoothing control cylinder, a fixed connecting plate and a pressing roller, the second electric slider is symmetrically arranged on the left side wall and the right side wall of the inner part of the working cavity, the fixed square plate is arranged on the second electric slider, the smoothing control cylinder is arranged on the lower end face of the fixed square plate, the output end of the smoothing control cylinder is provided with the fixed connecting plate, a plurality of groups of pressing rollers are arranged on the lower end face of the fixed connecting plate, during specific work, when the film laminating device is started, the smoothing control cylinder moves to enable the pressing roller to be abutted to the upper side of a film, then the second electric slider is started, when the film moves forwards to carry out film laminating treatment on the whole alloy plate, the pressing roller rolls forwards, and therefore the film can be tightly attached to the upper end.

As a preferred technical scheme of the invention, the exhaust device comprises a third electric slider, a mobile control panel, a control cavity and a control cylinder, wherein the third electric slider is arranged on the left side and the right side of the upper end surface of a working cavity, the mobile control panel is fixedly arranged on the third electric slider, the control cylinder is arranged on the lower end surface of the mobile control panel, the control cavity is arranged at the output end of the control cylinder, the control cavity is of a rectangular frame structure with an opening at the lower end, the control electric slider is arranged at the top end inside the control cavity, a fixing lug is arranged on the control electric slider, a placing groove is arranged on the left side and the right side end surfaces inside the control cavity, a sliding block in sliding fit with the placing groove is arranged in the placing groove, a starting square plate is arranged between the two groups of sliding blocks, the starting square plate is positioned below the fixing lug, a regulating block is arranged on the upper end, when the device works specifically, after one section of viscous end of the film is placed on an alloy plate, the control cylinder is controlled to start, so that the control cavity is pressed against the upper end surface of the alloy plate adhered with the viscous end of the film, the viscous film at the initial end cannot move when the film moves forwards to carry out film covering treatment on the alloy plate, after the smoothing device finishes acting, the control cylinder is controlled to start, and the control cavity moves to a proper position, the third electric sliding block and the control electric sliding block are started, the third electric sliding block drives the control cavity to move forwards, the control electric sliding block drives the fixed lug to move, after the fixed lug moves to the regulating and controlling block, the exhaust square plate moves downwards under the action of the regulating and controlling spring, so that the transverse rod part of the exhaust rod is driven to move outwards, the exhaust rod is reset under the action of the reset spring, the exhaust rod moves forwards under the action of the third electric sliding block, and the film on the upper end face of the whole alloy plate is subjected to exhaust bubble treatment.

As a preferred technical scheme of the invention, a plurality of groups of arc-shaped bent rods are arranged on the lower end surface of the cross rod part of the exhaust rod, the sharp cone parts of the arc-shaped bent rods are positioned at the outer sides, and when the exhaust rod moves, the arc-shaped bent rod structure is adopted to enhance the effect of discharging bubbles to the outer side end.

According to the preferable technical scheme, the fixed buckles are hinged to the left and right sides of the inner bottom surface of the working cavity and are located at the outer side ends of the fixed spring rods, a plurality of groups of clamping grooves are formed in rod-shaped portions of the fixed spring rods, and after the alloy plates are fixed on the fixed clamping device, the fixed buckles are rotated to be inserted into the clamping grooves of the fixed spring rods, so that the alloy plates cannot shake in the film laminating process, and the safety in the actual operation process is improved.

According to the preferable technical scheme, the fixed limiting plates are arranged in the front and back of the exhaust rod and are arranged on the lower end face of the exhaust square plate, and the fixed limiting plates are adopted, so that the exhaust rod cannot shake forwards and backwards when moving.

The invention has the beneficial effects that:

the invention can simply and quickly coat the film on the alloy plate by adopting the modes of rolling by the roller and the electric slider, has low operation difficulty, does not need high operation experience and saves the industrial cost.

The invention adopts a pressing roller mode to roll the film, so that the film is completely attached to the upper end surface of the alloy plate, and the alloy plate is protected.

And thirdly, the air exhausting device is adopted, so that the air bubbles after film coating can be extruded out, and the air exhausting device adopts an arc-shaped bent rod structure, so that the air exhausting effect is enhanced.

The fixed spring rod is limited by adopting the structure of the fixed buckle and the clamping groove, so that alloy plates cannot shake in the film laminating process, and casualties caused by poor film laminating effect and even accidents are avoided.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

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

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

FIG. 3 is a top view of the holding fixture of the present invention;

FIG. 4 is a partial left side view of the stationary clamp assembly of the present invention;

fig. 5 is a cross-sectional view of the exhaust apparatus of the present invention.

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 explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in figures 1 to 5, the alloy plate film coating processing system comprises a working cavity 1, a film coating device 2, a fixed clamping device 3, a smoothing device 4 and an exhaust device 5, wherein the working cavity 1 is of a rectangular frame structure with an opening at the upper end, the fixed clamping device 3 is installed on the bottom surface inside the working cavity 1, the film coating device 2 is arranged above the fixed clamping device 3 inside the working cavity 1, the smoothing device 4 is arranged above the film coating device 2 inside the working cavity 1, the exhaust device 5 is installed above the smoothing device 4, and the exhaust device 5 is located at the upper end of the working cavity 1. the invention can carry out film coating processing on alloy plates with various specifications and lengths, improves the efficiency during film coating, is simple to operate, has low requirements on operators, saves the cost, and places the alloy plates on the fixed clamping device 3 to clamp during working, and starting the film coating device 2, performing film coating treatment on the upper end face of the alloy plate by the film coating device 2, then starting the flattening device 4, rolling the film on the alloy plate by the flattening device 4, finally starting the exhaust device 5, and performing bubble discharge treatment after the film coating of the alloy plate by the exhaust device 5.

The fixed clamping device 3 comprises fixed sliding blocks 31, clamping blocks 32 and fixed spring rods 33, fixed sliding chutes 11 are bilaterally symmetrically arranged on the bottom surface inside the working cavity 1, four groups of fixed sliding blocks 31 are bilaterally symmetrically arranged in the fixed sliding chutes 11, the fixed sliding blocks 31 are of a cross-shaped structure, the two groups of fixed sliding blocks 31 in front are fixedly arranged at the front ends of the inner walls of the fixed sliding chutes 11 through connecting rods, the two groups of fixed sliding blocks 31 in rear are connected with the fixed spring rods 33, one ends of the fixed spring rods 33 far away from the fixed sliding blocks 31 are arranged at the rear ends of the inner walls of the fixed sliding chutes 11, the clamping blocks 32 are arranged at the upper ends of the fixed sliding blocks 31, the clamping blocks 32 are of an L-shaped structure, when the fixed clamping device works, one ends of alloy plates are firstly arranged at the inner side ends of the clamping blocks 32 far away from one sides of the fixed, the position of the clamping block 32 at one end is changed by pulling the fixed spring rod 33, so that the effect of fixedly clamping various alloy plates is achieved.

Working chamber 1 in the bottom surface bilateral symmetry articulated have fixed buckle 12, fixed buckle 12 is located fixed spring rod 33 outside end, multiunit draw-in groove 331 has been seted up to the shaft-like part of fixed spring rod 33, after alloy panel is fixed at fixed clamping device 3, fixed buckle 12 is overturn for fixed buckle 12 inserts in the draw-in groove 331 of fixed spring rod 33, thereby make tectorial membrane in-process alloy panel can not take place to rock, improved the security of actual work in-process.

The film covering device 2 comprises a film covering roller 21, a protective film 22, a first electric slider 23 and a rotating motor 24, wherein the left inner side wall and the right inner side wall of the working cavity 1 are provided with the first electric slider 23, the first electric slider 23 at one end is provided with the rotating motor 24, the output shaft of the rotating motor 24 is provided with the film covering roller 21, one end of the film covering roller 21, which is far away from the rotating motor 24, is connected to the first electric slider 23 at the other end through a fixed connecting rod, the protective film 22 is wound on the film covering roller 21, in operation, after an alloy plate is placed on the fixed clamping device 3 to be clamped, the protective film 22 is torn off by one section, so that the adhesive end of the protective film 22 is placed on one end of the alloy plate, then the first electric slider 23 and the rotating motor 24 are started, the film covering roller 21 is rotated under the action of the, the first electric slide 23 is started to drive the protective film 22 to move forward, so that the adhesive end on the protective film 22 is attached to the upper end face of the whole alloy plate.

The smoothing device 4 comprises a second electric slider 41, a fixed square plate 42, a smoothing control cylinder 43, a fixed connecting plate 44 and a pressing roller 45, the second electric slider 41 is symmetrically installed on the left and right side walls inside the working cavity 1, the fixed square plate 42 is installed on the second electric slider 41, the smoothing control cylinder 43 is installed on the lower end face of the fixed square plate 42, the fixed connecting plate 44 is installed at the output end of the smoothing control cylinder 43, a plurality of groups of pressing rollers 45 are installed on the lower end face of the fixed connecting plate 44, in the specific working process, when the film laminating device 2 is started, the smoothing control cylinder 43 moves to enable the pressing roller 45 to be abutted against the upper portion of a film, the second electric slider 41 is started, when the film moves forwards to carry out film laminating processing on the whole alloy plate, the pressing roller 45 rolls forwards, and therefore the film can be tightly attached to the upper end face of the alloy plate.

The exhaust device 5 comprises a third electric slider 51, a mobile control board 52, a control cavity 53 and a control cylinder 54, the third electric slider 51 is arranged on the left side and the right side of the upper end surface of the working cavity 1, the mobile control board 52 is fixedly arranged on the third electric slider 51, the control cylinder 54 is arranged on the lower end surface of the mobile control board 52, the control cavity 53 is arranged at the output end of the control cylinder 54, the control cavity 53 is of a rectangular frame structure with an opening at the lower end, the control electric slider 531 is arranged at the top end inside the control cavity 53, a fixed lug 532 is arranged on the control electric slider 531, a placing groove 533 is arranged on the left side end surface and the right side end surface inside the control cavity 53, a sliding block 534 in sliding fit with the placing groove 533 is arranged in the placing groove, a starting square plate 535 is arranged between the two groups of sliding blocks 534, the starting square plate 535 is positioned below the fixed, the lower end face of the starting square plate 535 is provided with an exhaust square plate 537 through a support rod, the left side and the right side of the exhaust square plate 537 are provided with exhaust sliders 541, the exhaust sliders 541 are in sliding fit with the arrangement groove 533, the lower end face of the exhaust slider 541 is provided with a regulating spring 538, one end of the regulating spring 538, which is far away from the exhaust slider 541, is arranged on the inner bottom face of the arrangement groove 533, the left side and the right side of the lower end face of the exhaust square plate 537 are symmetrically hinged with exhaust rods 539, each exhaust rod 539 consists of an inclined rod and a cross rod, the inclined rod part is hinged on the lower end face of the exhaust square plate 537, a return spring 521 is arranged between the inclined rod parts of the left group of the right group of the exhaust rods 539, when the film is in specific work, after one section of viscous end of the film is placed on an alloy plate, the control cylinder 54 is started, so that the control cavity 53 is pressed on the upper end, after the smoothing device 4 finishes acting, the control cylinder 54 is started, the control cavity 53 moves to a proper position, the third electric slider 51 and the control electric slider 531 are started, the third electric slider 51 drives the control cavity 53 to move forwards, the control electric slider 531 drives the fixed lug 532 to move, after the fixed lug 532 moves to the regulating block 536, the exhaust square plate 537 moves downwards under the action of the regulating spring 538, so that the transverse rod part of the exhaust rod 539 is driven to move outwards, the exhaust rod 539 is reset under the action of the return spring 521, and the exhaust rod 539 moves forwards under the action of the third electric slider 51, so that the film on the upper end face of the whole alloy plate is subjected to exhaust bubble treatment.

The lower end face of the cross rod part of the exhaust rod 539 is provided with a plurality of groups of arc-shaped bent rods 542, the pointed cone part of the arc-shaped bent rods 542 is positioned at the outer side, and when the exhaust rod 539 moves, the structure of the arc-shaped bent rods 542 is adopted to enhance the effect of discharging bubbles to the outer side end.

Fixed limiting plate 543 is installed to exhaust pole 539 front and back side, fixed limiting plate 543 is installed on exhaust side board 537 lower extreme face, adopts fixed limiting plate 543 to can not take place to rock around when making exhaust pole 539 remove.

During specific work, one end of an alloy plate is placed at the inner side end of the clamping block 32 far away from one side of the fixed spring rod 33, then the fixed spring rod 33 is pulled, the other end of the alloy plate is placed at the inner side end of the clamping block 32 close to the fixed spring rod 33, the position of the clamping block 32 at one end is changed by pulling the fixed spring rod 33, the effect of fixing and clamping various alloy plates is achieved, the fixed buckle 12 is rotated after the alloy plate is fixed on the fixed clamping device 3, the fixed buckle 12 is inserted into the clamping groove 331 of the fixed spring rod 33, the alloy plate cannot shake in the film laminating process, and safety in the actual operation process is improved. Place at fixed clamping device 3 when alloy plate and press from both sides tightly the back, tear one section with protection film 22, thereby place protection film 22's viscidity end in alloy plate's one end, first electric slider 23 and rotation motor 24 start-up after that, make tectorial membrane gyro wheel 21 take place to rotate under the effect of rotation motor 24, thereby make the last winding protection film 22 of tectorial membrane gyro wheel 21 rotate, thereby first electric slider 23 starts and drives protection film 22 forward motion, make the viscidity end on the protection film 22 paste on whole alloy plate up end. When the film laminating device 2 is started, the smoothing control cylinder 43 moves to enable the pressing roller 45 to be abutted against the upper side of the film, then the second electric slider 41 is started, when the film moves forwards to carry out film laminating treatment on the whole alloy plate, the pressing roller 45 rolls forwards, and therefore the film can be attached to the upper end face of the alloy plate. After one section of the viscous end of the film is placed on the alloy plate, the control cylinder 54 is started, so that the control cavity 53 is pressed against the upper end face of the alloy plate adhered with the viscous end of the film, the film moves forward to perform film coating treatment on the alloy plate, the viscous film at the initial end cannot move, after the flattening device 4 finishes acting, the control cylinder 54 is started, after the control cavity 53 moves to a proper position, the third electric slider 51 and the control electric slider 531 are started, the third electric slider 51 drives the control cavity 53 to move forward, the control electric slider 531 drives the fixed lug 532 to move, after the fixed lug 532 moves to the regulating block 536, the exhaust square plate 537 moves downward under the action of the regulating spring 538, so that the cross rod part of the exhaust rod 539 is driven to move outward, the exhaust rod 539 is reset under the action of the reset spring 521, and the exhaust rod 539 moves forward under the action of the third electric slider 51, thereby carrying out bubble removal treatment on the film on the upper end surface of the whole alloy plate. The invention adopts the structure of the arc-shaped bent rod 542, enhances the effect of discharging bubbles to the outer end, and adopts the fixed limiting plate 543, so that the air discharge rod 539 does not shake back and forth when moving.

The invention can coat films on alloy plates with various length specifications, improves the application universality, adopts the modes of rolling by the roller and the electric slider, can simply and quickly coat films on the alloy plates, has low operation difficulty, does not need high operation experience, and saves the industrial cost.

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, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides an alloy plate tectorial membrane system of processing, is including working chamber (1), tectorial membrane device (2), fixed clamping device (3), smooths device (4) and exhaust apparatus (5), its characterized in that: working chamber (1) be upper end open-ended rectangle frame structure, install fixed clamping device (3) on the inside bottom surface of working chamber (1), the inside top that is located fixed clamping device (3) of working chamber (1) is provided with tectorial membrane device (2), the inside top that is located tectorial membrane device (2) of working chamber (1) is provided with smooths device (4), smooths device (4) and is located working chamber (1) and controls on the inside wall, smooths device (4) top and installs exhaust apparatus (5), exhaust apparatus (5) are located working chamber (1) upper end, wherein:

the fixed clamping device (3) comprises fixed sliding blocks (31), clamping blocks (32) and fixed spring rods (33), fixed sliding chutes (11) are arranged on the bottom surface inside the working cavity (1) in a bilateral symmetry mode, four groups of fixed sliding blocks (31) are arranged in the fixed sliding chutes (11) in a bilateral symmetry mode, the fixed sliding blocks (31) are of a cross-shaped structure, the two groups of fixed sliding blocks (31) in the front are fixedly arranged at the front ends of the inner walls of the fixed sliding chutes (11) through connecting rods, the two groups of fixed sliding blocks (31) in the rear are connected with the fixed spring rods (33), one ends, far away from the fixed sliding blocks (31), of the fixed spring rods (33) are arranged at the rear ends of the inner walls of the fixed sliding chutes (11), the clamping blocks (32) are arranged at the;

the film laminating device (2) comprises a film laminating roller (21), a protective film (22), a first electric slider (23) and a rotating motor (24), the first electric slider (23) is installed on the left inner side wall and the right inner side wall of the working cavity (1), the rotating motor (24) is installed on the first electric slider (23) at one end, the film laminating roller (21) is installed on an output shaft of the rotating motor (24), one end, far away from the rotating motor (24), of the film laminating roller (21) is connected to the first electric slider (23) at the other end through a fixed connecting rod, and the protective film (22) is wound on the film laminating roller (21);

smooth device (4) including second electric slider (41), fixed square plate (42), smooth control cylinder (43), fixed even board (44) and press down gyro wheel (45), second electric slider (41) symmetry is installed on the lateral wall about working chamber (1) is inside, install fixed square plate (42) on second electric slider (41), face-mounting is smoothed control cylinder (43) under fixed square plate (42), smooth control cylinder (43) output is installed and is fixed even board (44), the terminal surface is installed the multiunit and is pressed down gyro wheel (45) under fixed even board (44).

2. The alloy plate film coating processing system of claim 1, wherein: the exhaust device (5) comprises a third electric slider (51), a mobile control panel (52), a control cavity (53) and a control cylinder (54), the third electric slider (51) is installed on the left side and the right side of the upper end surface of the working cavity (1), the mobile control panel (52) is fixedly installed on the third electric slider (51), the control cylinder (54) is installed on the lower end surface of the mobile control panel (52), the control cavity (53) is installed at the output end of the control cylinder (54), the control cavity (53) is of a rectangular frame structure with an open lower end, the control electric slider (53) is installed at the top end inside the control cavity (53), a fixed lug (532) is installed on the control electric slider (531), a placing groove (533) is formed in the end surface of the left side and the right side inside the control cavity (53), a sliding square block (534) in sliding fit with the placing groove (533) is installed in the placing groove, and a starting square, the starting square plate (535) is located below the fixed lug (532), a regulating block (536) is installed on the upper end face of the starting square plate (535), an exhaust square plate (537) is installed on the lower end face of the starting square plate (535) through a support rod, an exhaust slider (541) is installed on the left side and the right side of the exhaust square plate (537), the exhaust slider (541) is in sliding fit with a setting groove (533), a regulating spring (538) is installed on the lower end face of the exhaust slider (541), one end, far away from the exhaust slider (541), of the regulating spring (538) is installed on the inner bottom face of the setting groove (533), exhaust rods (539) are symmetrically hinged to the left side and the right side of the lower end face of the exhaust square plate (537), the exhaust rods (539) consist of diagonal rods and cross rods, the diagonal rods are partially hinged to the lower end face of the exhaust square plate (537), and reset springs (521) are.

3. The alloy plate film coating processing system of claim 2, wherein: the lower end face of the cross rod part of the exhaust rod (539) is provided with a plurality of groups of arc-shaped bent rods (542), and the pointed cone part of the arc-shaped bent rods (542) is positioned on the outer side.

4. The alloy plate film coating processing system of claim 1, wherein: the working chamber (1) in the bottom surface bilateral symmetry articulated have fixed buckle (12), fixed buckle (12) are located fixed spring lever (33) outside end, the shaft-like part of fixed spring lever (33) has seted up multiunit draw-in groove (331).

5. The alloy plate film coating processing system of claim 2, wherein: fixed limiting plates (543) are installed in the front and back of the exhaust rod (539), and the fixed limiting plates (543) are installed on the lower end face of the exhaust square plate (537).

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