CN110524952B - Top cover bubble removing mechanism and using method thereof - Google Patents

Abstract

The invention provides a bubble removing mechanism for a roof cover and a using method thereof, wherein the bubble removing mechanism for the roof cover comprises a rack, a telescopic driving mechanism, a fixing plate, a magnetic base and a bubble removing die; the telescopic driving mechanism is arranged on the frame; the fixed plate is connected with the telescopic driving mechanism; the magnetic base is connected with the fixed plate; the defoaming mould is detachably connected with the magnetic base. According to the top cover defoaming mechanism provided by the invention, the magnetic base is arranged on the fixed plate, after the position of the defoaming mold is deviated, the magnetic base switch can be rotated to separate the defoaming mold from the magnetic base, the defoaming mold is sleeved in the top cover below the magnetic base, then the telescopic driving mechanism drives the fixed plate to move downwards, the fixed plate drives the magnetic base to move downwards to the upper surface of the defoaming mold, and then the switch of the magnetic base is rotated to enable the defoaming mold to be adsorbed and fixed below the magnetic base again, so that the position of the defoaming mold is corrected, and the problem that the defoaming mold cannot be sleeved in the top cover for defoaming due to the deviation of the position of the defoaming mold is avoided.

Description

Top cover bubble removing mechanism and using method thereof

Technical Field

The invention relates to the technical field of carton processing, in particular to a bubble removing mechanism for a top cover and a using method of the bubble removing mechanism.

Background

The top and bottom cover is a paper box which comprises an upper part and a lower part, the cover of the paper box is a 'top', the bottom of the paper box is a 'bottom', and the paper box is called as a top and bottom cover; the paper box is widely applied to various high-grade packages, such as mobile phone boxes and tea packing boxes; the top cover is usually formed by attaching facial tissue to a hard paper box, and when the facial tissue is attached to the hard paper box, bubbles appear, so that the bubbles need to be removed from the paper box.

In the prior art, a pressing plate is pressed in a paper box, so that the aim of removing bubbles is fulfilled; as in the patent previously filed by the applicant: the patent with the application number of CN201821365351.2 discloses a carton hem bubble removing machine, including the board, the upper and lower anchor clamps subassembly of carton, the subassembly and the hem bubble removing subassembly of transferring of carton, the hem removes bubble subassembly total four, and four hems remove bubble subassembly and set up relatively and are used for removing the bubble to the facial tissue of four sides of carton, and every hem removes the bubble subassembly and includes small-size support, the inside medium-sized cylinder that is provided with of small-size support, the output shaft of medium-sized cylinder passes small-size leg joint and has the clamp plate.

The pressure plate is connected with an output shaft of the air cylinder through a small bracket; the above patent has a problem: when the bubble removing machine is used for a long time, the position of the pressing plate is necessarily deviated, the position of the pressing plate and the position of the top cover are staggered, and the position of the pressing plate can not be adjusted, so that the pressing plate can not be sleeved in the top cover to realize the laminating and bubble removing of the paperboard.

Disclosure of Invention

In order to solve the problem that the pressing plate cannot be sleeved into a paper box due to the fact that the pressing plate cannot be adjusted when the position of the pressing plate deviates, the invention provides a bubble removing mechanism for a top cover and a using method of the bubble removing mechanism, wherein the bubble removing mechanism for the top cover comprises a rack, a telescopic driving mechanism, a fixing plate, a magnetic base and a bubble removing mold;

the telescopic driving mechanism is arranged on the rack; the fixed plate is connected with the telescopic driving mechanism; the magnetic base is connected with the fixing plate; the defoaming mould is detachably connected with the magnetic base.

Further, the telescopic driving mechanism is one of an air cylinder and an electric push rod.

Further, the telescopic driving mechanism is a duplex cylinder.

Furthermore, the magnetic force seat is provided with a plurality of magnetic force seats.

Furthermore, the fixing plate is provided with a fixing groove for fixing the position of the magnetic base.

Furthermore, a rib plate used for enhancing the stability of the rack is arranged on the rack.

The invention also provides a foam removing mechanism for the canopy and a using method thereof, wherein the method comprises the following steps: placing a top cover right below the magnetic base; then the defoaming mould is sleeved in the top cover; the fixing plate is driven to move downwards by the telescopic driving mechanism, so that the magnetic base is driven to move downwards to the upper surface of the defoaming mold; and then, a switch of the magnetic base is pushed to the opened side, so that the defoaming mold is firmly adsorbed to the lower end of the magnetic base, and the position correction of the defoaming mold is completed.

According to the top cover defoaming mechanism provided by the invention, the magnetic base is arranged on the fixed plate, after the position of the defoaming mold is deviated, the magnetic base switch can be rotated to separate the defoaming mold from the magnetic base, the defoaming mold is sleeved in the top cover below the magnetic base, then the telescopic driving mechanism drives the fixed plate to move downwards, the fixed plate drives the magnetic base to move downwards to the upper surface of the defoaming mold, and then the switch of the magnetic base is rotated to enable the defoaming mold to be adsorbed and fixed below the magnetic base again, so that the position of the defoaming mold is corrected, and the problem that the defoaming mold cannot be sleeved in the top cover for defoaming due to the deviation of the position of the defoaming mold is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a first structural schematic diagram of a bubble removing mechanism of a canopy according to the present invention;

FIG. 2 is a second structural schematic diagram of the bubble removing mechanism of the canopy;

FIG. 3 is a first schematic structural view of a canopy forming apparatus;

FIG. 4 is a schematic structural view II of the canopy forming apparatus;

FIG. 5 is a schematic structural view of a dispensing mechanism;

fig. 6 is a first schematic structural diagram of the storage bin and the jam jacking mechanism;

fig. 7 is a structural schematic diagram of the bin and the jam jacking mechanism.

Reference numerals:

100 feed mechanism 200 point gum machine constructs 210 point and glues support

230 rubber tube fixing structure 240 rubber bottle of 220 rubber tube driving mechanism

311 clapboard of paper feeding mechanism for 250 rubber hose 300

312 bottom plate 320 paper jam jacking mechanism 321 motor

322 hold-in range 323 card paper jacking board 400 bubble removing mechanism

410 frame 420 telescopic driving mechanism 430 fixing plate

460 rib plates of 440 magnetic base 450 defoaming mould

500 press stupefied mechanism 510 and press stupefied support 520 and press stupefied board

530 arris telescopic machanism 600 detection mechanism presses

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. 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.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The invention provides a bubble removing mechanism for a roof cover and a using method thereof, wherein the bubble removing mechanism for the roof cover comprises a rack 410, a telescopic driving mechanism 420, a fixing plate 430, a magnetic base 440 and a bubble removing mould 450;

the telescopic driving mechanism 420 is arranged on the frame 410; the fixing plate 430 is connected with the telescopic driving mechanism 420; the magnetic base 440 is connected with the fixing plate 430; the defoaming mold 450 is detachably connected with the magnetic base 440.

In specific implementation, as shown in fig. 1, the bubble removing mechanism for the canopy according to the embodiment of the present invention includes a frame 410, a telescopic driving mechanism 420, a fixing plate 430, a magnetic base 440, and a bubble removing mold 450; the frame 410 is a supporting structure formed by welding pipes, and the frame 410 is used for supporting and mounting other structures of the canopy defoaming mechanism; the telescopic driving mechanism 420 comprises a fixed end and a movable end; the fixed end of the telescopic driving mechanism 420 is arranged on the frame 410, and the movable end of the telescopic driving mechanism 420 is connected with the fixed plate 430; the lower end of the fixing plate 430 is connected with the magnetic base 440; the telescopic driving mechanism 420 is used for driving the fixing plate 430 to move up and down, so as to drive the magnetic base 440 to move up and down, and further complete the bubble removal of the canopy and the correction of the bubble removal mold 450; the telescopic driving mechanism 420 may be one of an air cylinder or an electric push rod, and the telescopic driving mechanism 420 in this embodiment is an air cylinder;

the fixing plate 430 is of a plate-shaped structure, the upper end of the fixing plate 430 is connected with the movable end of the telescopic driving mechanism 420, the lower end of the fixing plate 430 is connected with the magnetic base 440 through fasteners such as bolts, and the fixing plate 430 plays a role in connecting the telescopic driving mechanism 420 and the magnetic base 440; a switch for controlling the existence of the magnetic force on the surface of the magnetic base 440 is arranged on the magnetic base 440; when the switch of the magnetic base 440 is rotated to the opened side, the surface of the magnetic base 440 has strong magnetic force, so that the defoaming mold 450 can be tightly fixed under the magnetic base 440; when the switch of the magnetic base 440 is rotated to the closed side, the magnetic force on the surface of the magnetic base 440 disappears, and the defoaming mold 450 can be separated from the magnetic base 440. The defoaming mold 450 is a block structure made of ferromagnetic materials such as iron, cobalt, nickel and the like, and the size of the defoaming mold 450 is the same as the inner size of the top cover; the defoaming mold 450 can be sleeved into the top cover under the driving of the magnetic base 440, so that bubbles generated by the attached facial tissue are extruded out, and the defoaming action of the top cover is completed.

In actual use, as shown in fig. 1 and 2, when the bubble removing mold is used for the first time, the top cover is placed under the magnetic base 440, then the switch of the magnetic base 440 is switched to the closed side, the bubble removing mold 450 is sleeved in the top cover, then the telescopic driving mechanism 420 is driven to drive the fixing plate 430 to move downwards, so that the magnetic base 440 is driven to move downwards to the upper surface of the bubble removing mold 450, the magnetic base 440 is in contact with the upper surface of the bubble removing mold 450, and then the switch of the magnetic base 440 is switched to the open side, so that the bubble removing mold 450 is firmly adsorbed at the lower end of the magnetic base 440; thereby completing the correction of the position of the defoaming mold 450; during the subsequent defoaming operation, the top cover is placed under the defoaming mold 450, the telescopic driving mechanism 420 is driven to drive the defoaming mold 450 to move downwards and is sleeved in the top cover, and the defoaming operation of the top cover can be completed.

According to the top cover defoaming mechanism provided by the invention, the magnetic base is arranged on the fixed plate, after the position of the defoaming mold is deviated, the magnetic base switch can be rotated to separate the defoaming mold from the magnetic base, the defoaming mold is sleeved in the top cover below the magnetic base, then the telescopic driving mechanism drives the fixed plate to move downwards, the fixed plate drives the magnetic base to move downwards to the upper surface of the defoaming mold, and then the switch of the magnetic base is rotated to enable the defoaming mold to be adsorbed and fixed below the magnetic base again, so that the position of the defoaming mold is corrected, and the problem that the defoaming mold cannot be sleeved in the top cover for defoaming due to the deviation of the position of the defoaming mold is avoided.

Preferably, the telescopic driving mechanism 420 is a duplex cylinder.

In specific implementation, as shown in fig. 1, the telescopic driving mechanism 420 of the present embodiment is a duplex cylinder; through adopting the duplex cylinder as the telescopic driving mechanism 420, the fixed plate 430 moves more stably and accurately up and down, and is not easy to rotate and shift, so that the defoaming mold 450 can be accurately sleeved in the canopy for defoaming operation.

Preferably, the magnetic base 440 is provided in several numbers.

In specific implementation, as shown in fig. 1, the lower end of the fixing plate 430 is provided with a plurality of magnetic force seats 440, and the lower end of the fixing plate 430 is provided with the plurality of magnetic force seats 440, so that the magnetic force seats 440 have sufficient adsorption force to adsorb the defoaming mold 450, and the defoaming mold 450 is more stably and firmly fixed and is not easy to shift.

Preferably, the fixing plate 430 is provided with a fixing groove for fixing the position of the magnetic base 440.

During specific implementation, the fixing plate 430 is provided with a fixing groove which is of a groove-shaped structure, the size of the fixing groove is the same as that of the magnetic base 440, and the fixing groove is used for fixing the position of the magnetic base 440, so that the magnetic base 440 is not prone to position deviation when in use, and moreover, the magnetic base 440 is convenient to install and position.

Preferably, the frame 410 is provided with a rib 460 for enhancing the stability of the frame 410.

In specific implementation, as shown in fig. 1, a rib plate 460 is disposed at a right-angle connection position of the frame 410, the rib plate 460 is a triangular block structure, and the structural strength and stability of the frame 410 can be enhanced by disposing the rib plate 460 on the frame 410.

The invention also provides a foam removing mechanism for the canopy and a using method thereof, wherein the method comprises the following steps: placing a top cover right below the magnetic base 440; then the defoaming mould 450 is sleeved in the top cover; the fixing plate 430 is driven to move downwards by the telescopic driving mechanism 420, so that the magnetic base 440 is driven to move downwards to the upper surface of the defoaming mold 450; then, the switch of the magnetic base 440 is turned to the open side, so that the defoaming mold 450 is firmly attached to the lower end of the magnetic base 440, thereby completing the position correction of the defoaming mold 450.

Specifically, the top cover is placed right below the magnetic base 440, then the switch of the magnetic base 440 is shifted to the closed side, the defoaming mold 450 is sleeved into the top cover, then the telescopic driving mechanism 420 is driven to drive the fixing plate 430 to move downwards, so that the magnetic base 440 is driven to move downwards to the upper surface of the defoaming mold 450, the magnetic base 440 is enabled to be in contact with the upper surface of the defoaming mold 450, then the switch of the magnetic base 440 is shifted to the open side, and the defoaming mold 450 is firmly adsorbed at the lower end of the magnetic base 440; thereby completing the correction of the position of the defoaming mold 450.

According to the top cover defoaming mechanism provided by the invention, the magnetic base is arranged on the fixed plate, after the position of the defoaming mold is deviated, the magnetic base switch can be rotated to separate the defoaming mold from the magnetic base, the defoaming mold is sleeved in the top cover below the magnetic base, then the telescopic driving mechanism drives the fixed plate to move downwards, the fixed plate drives the magnetic base to move downwards to the upper surface of the defoaming mold, and then the switch of the magnetic base is rotated to enable the defoaming mold to be adsorbed and fixed below the magnetic base again, so that the position of the defoaming mold is corrected, and the problem that the defoaming mold cannot be sleeved in the top cover for defoaming due to the deviation of the position of the defoaming mold is avoided.

Specifically, as shown in fig. 3-7, the foam removing mechanism for the canopy of the present invention can be applied to a canopy forming apparatus; the canopy forming equipment further comprises a feeding mechanism 100, a glue dispensing mechanism 200, a paper clamping mechanism 300, an edge pressing mechanism 500 and a detection mechanism 600; a transmission mechanism is arranged below the mechanism and used for transmitting the top cover to sequentially pass through the mechanism to realize assembly line processing; the transmission mechanism can adopt a transfer machine or a shifting fork structure for transmission; the feeding mechanism 100 is provided with a mechanical arm, and a sucker is arranged on the mechanical arm and used for adsorbing the canopy, and the canopy is transferred to the conveying mechanism of the equipment from the previous working section.

The glue dispensing mechanism 200 comprises a glue dispensing tube 250, a glue bottle 240, a glue tube fixing structure 230, a glue tube driving mechanism 220 and a glue dispensing bracket 210; the dispensing bracket 210 is a pipe frame structure and is used for supporting and fixing other structures of the dispensing mechanism 200; the rubber tube driving mechanism 220 is a cylinder, the rubber tube driving mechanism 220 is arranged on the dispensing bracket 210, and the movable end of the rubber tube driving mechanism 220 is connected with the dispensing tube 250; the glue bottle 240 is used for containing glue, one end of the glue bottle 240 is connected with the air pump, and the other end of the glue bottle 240 is communicated with the glue dispensing tube 250; the dispensing tube 250 is a tubular structure, and the dispensing tube 250 is fixed on the dispensing bracket 210 through the tube fixing structure 230; under the use of the air pump, the glue in the glue bottle 240 is compressed by the compressed air and is extruded out through the glue dispensing tube 250, and the glue tube driving mechanism 220 pushes the glue dispensing tube 250 downwards, so that the glue dispensing tube 250 is in contact with the top cover, and the glue is coated on the top cover, thereby realizing the glue dispensing action of the top cover.

The paper jam loading mechanism 300 comprises a bin, a paper jam jacking mechanism 320 and a mechanical arm for adsorbing and transferring the paper jam; the bin is composed of a bottom plate 312 and a partition plate 311 and is used for storing the paperboard to be attached; preferably, the partition 311 is detachably connected to the bottom plate 312 through the magnetic base 440, so that the partition 311 can be adjusted according to the specification of the paper jam; the jam jacking mechanism 320 comprises a motor 321, a synchronous belt 322 and a jam jacking plate 323; the motor 321 is arranged on the bottom plate 312, and a rotating shaft of the motor 321 is connected with the synchronous belt 322; the paperboard lifting plate 323 is of a plate-shaped structure, and the paperboard lifting plate 323 is connected with the synchronous belt 322; a sucker is arranged on a mechanical arm of the paper feeding mechanism 300 and used for sucking the paper and transferring the paper from the bin to the top cover; when the jam jacking mechanism 320 works, the motor 321 drives the synchronous belt 322 to move, so that the synchronous belt 322 drives the jam jacking plate 323 to move upwards, and then the mechanical arm of the jam jacking mechanism 300 transfers the jam on the jam jacking plate 323 to the top cover.

The defoaming mechanism 400 comprises a frame 410, a telescopic driving mechanism 420, a fixing plate 430, a magnetic base 440 and a defoaming mold 450; the frame 410 is a supporting structure formed by welding pipes, and the frame 410 is used for supporting and mounting other structures of the canopy defoaming mechanism; the telescopic driving mechanism 420 comprises a fixed end and a movable end; the fixed end of the telescopic driving mechanism 420 is arranged on the frame 410, and the movable end of the telescopic driving mechanism 420 is connected with the fixed plate 430; the lower end of the fixing plate 430 is connected with the magnetic base 440; the telescopic driving mechanism 420 is used for driving the fixing plate 430 to move up and down, so as to drive the magnetic base 440 to move up and down, and further complete the bubble removal of the canopy and the correction of the bubble removal mold 450; the telescopic driving mechanism 420 may be one of an air cylinder or an electric push rod, and the telescopic driving mechanism 420 in this embodiment is an air cylinder; the fixing plate 430 is of a plate-shaped structure, the upper end of the fixing plate 430 is connected with the movable end of the telescopic driving mechanism 420, the lower end of the fixing plate 430 is connected with the magnetic base 440 through fasteners such as bolts, and the fixing plate 430 plays a role in connecting the telescopic driving mechanism 420 and the magnetic base 440; a switch for controlling the existence of the magnetic force on the surface of the magnetic base 440 is arranged on the magnetic base 440; when the switch of the magnetic base 440 is rotated to the opened side, the surface of the magnetic base 440 has strong magnetic force, so that the defoaming mold 450 can be tightly fixed under the magnetic base 440; when the switch of the magnetic base 440 is rotated to the closed side, the magnetic force on the surface of the magnetic base 440 disappears, and the defoaming mold 450 can be separated from the magnetic base 440. The defoaming mold 450 is a block structure made of ferromagnetic materials such as iron, cobalt, nickel and the like, and the size of the defoaming mold 450 is the same as the inner size of the top cover; the defoaming mold 450 can be sleeved into the top cover under the driving of the magnetic base 440, so that bubbles generated by the attached facial tissue are extruded out, and the defoaming action of the top cover is completed.

The corrugation pressing mechanism 500 comprises a corrugation pressing bracket 510, a corrugation pressing plate 520 and a corrugation pressing telescopic mechanism 530; the edge pressing plate 520 is a pipe frame structure formed by pipes and is used for supporting the edge pressing plate 520 and the edge pressing telescopic mechanism 530; the corrugation pressing and stretching mechanism 530 is a cylinder, and the movable end of the corrugation pressing and stretching mechanism 530 is connected with the corrugation pressing plate 520; the corrugated board 520 is a plate-shaped structure; a shape for reinforcing the canopy; when the corrugated plate is used, the upper cover is conveyed to the lower part of the corrugation pressing mechanism 500, the corrugation pressing telescopic mechanism 530 drives the corrugated plate 520 to move downwards and is sleeved on the upper cover, and therefore the shape of the upper cover is further reinforced.

The detection mechanism 600 includes a detection bracket and a sensor for detecting whether the jammed papers overlap; the sensor is arranged on the detection bracket, and is used for judging whether the jamming in the top cover is overlapped or not by detecting the thickness of the jamming; it should be noted that the sensor may be a contact sensor such as an inductive displacement sensor, a capacitive sensor, or a hall displacement sensor, or a non-contact sensor such as an eddy current thickness sensor, a magnetic thickness sensor, or an ultrasonic thickness sensor; the sensors are all existing components and parts, and are not described in detail here.

In actual use, as shown in fig. 3, the canopy is transferred from the previous working section to the conveying mechanism of the canopy forming apparatus by the mechanical arm of the feeding mechanism 100; the upper cover is transferred to the lower part of the dispensing mechanism 200 through the transmission mechanism, and the dispensing operation on the upper cover is realized through the dispensing mechanism 200; then, the top cover is transferred to the position of the upper paper jamming mechanism 300 by the conveying mechanism, the jammed paper in the bin is transferred into the top cover through the mechanical arm of the upper paper jamming mechanism 300, then the top cover is transferred to the lower part of the bubble removing mechanism 400, and the close fitting and bubble removing operation of the jammed paper and the top cover are realized through the bubble removing mold 450; then, the top cover is transmitted to the lower part of the corrugation pressing mechanism 500, the corrugation pressing plate 520 moves downwards under the driving of the corrugation pressing telescopic mechanism 530 and is sleeved at the opening position of the top cover, and therefore the deformed edge angle on the top cover is corrected; finally, the roof is conveyed to below the detection mechanism 600, and whether or not the jammed papers inside the roof overlap is detected by the sensor of the detection mechanism 600.

According to the forming equipment for the top cover, the feeding mechanism, the glue dispensing mechanism, the paper clamping mechanism, the bubble removing mechanism, the edge pressing mechanism and the detecting mechanism are arranged, so that the top cover and the paperboard can be automatically pasted, the equipment has a high automation degree, and the labor cost is greatly saved.

Although terms such as frame, telescopic drive mechanism, fixed plate, magnetic base and defoaming die are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. The utility model provides a sky lid removes bubble mechanism which characterized in that: comprises a frame (410), a telescopic driving mechanism (420), a fixing plate (430), a magnetic base (440) and a bubble removing mould (450) for removing bubbles in a canopy;

the telescopic driving mechanism (420) is arranged on the rack (410); the fixed plate (430) is connected with the telescopic driving mechanism (420); the magnetic base (440) is connected with the fixing plate (430); a switch for controlling the existence of magnetic force on the surface of the magnetic base (440) is arranged on the magnetic base (440), and the bubble removing mould (450) is controlled to be detachably connected with the magnetic base (440) through the switch;

the method also comprises the following steps of correcting the position of the defoaming die:

placing a top cover right below the magnetic base (440); then the defoaming mould (450) is sleeved in the top cover; the fixed plate (430) is driven to move downwards by the telescopic driving mechanism (420), so that the magnetic base (440) is driven to move downwards to the upper surface of the defoaming mold (450); and then, the switch of the magnetic base (440) is turned to the open side, so that the defoaming mold (450) is firmly adsorbed to the lower end of the magnetic base (440), thereby completing the position correction of the defoaming mold (450).

2. The canopy bubble removal mechanism of claim 1, wherein: the telescopic driving mechanism (420) is one of an air cylinder and an electric push rod.

3. The canopy bubble removal mechanism of claim 2, wherein: the telescopic driving mechanism (420) is a duplex cylinder.

4. The canopy bubble removal mechanism of claim 1, wherein: the magnetic force seats (440) are provided with a plurality of.

5. The canopy bubble removal mechanism of claim 4, wherein: the fixing plate (430) is provided with a fixing groove for fixing the position of the magnetic base (440).

6. The canopy bubble removal mechanism of claim 1, wherein: the frame (410) is provided with a rib plate (460) used for enhancing the stability of the frame (410).

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