CN115179542A

CN115179542A - Film laminating method and device for glass production and processing

Info

Publication number: CN115179542A
Application number: CN202210870849.9A
Authority: CN
Inventors: 陈流坤; 谭岳龙; 方明星; 刘康
Original assignee: Anhui Victory Precision Manufactur Technology Co ltd
Current assignee: Anhui Victory Precision Manufactur Technology Co ltd
Priority date: 2022-07-22
Filing date: 2022-07-22
Publication date: 2022-10-14
Anticipated expiration: 2042-07-22
Also published as: CN115179542B

Abstract

The invention belongs to the technical field of glass processing, and aims to solve the problems that the prior art is difficult to simultaneously coat films on the upper surface and the lower surface of glass, the processing efficiency is low, dust and dirt attached to the surface of the glass can cause poor film coating effect, and the glass film is difficult to be flatly and tightly attached to the surface of the glass in the film coating process; the invention can realize simultaneous cleaning and film covering on two surfaces of glass, has high film covering efficiency, enables the glass film to be attached to the surface of the glass more tightly by the leveling and anti-wrinkling mechanism, and improves the film covering effect and the product quality.

Description

Film laminating method and device for glass production and processing

Technical Field

The invention relates to the technical field of glass processing, in particular to a film coating method and device for glass production and processing.

Background

The glass is an amorphous inorganic non-metallic material, is generally prepared by taking various inorganic minerals as main raw materials and adding a small amount of auxiliary raw materials, has the main components of silicon dioxide and other oxides, is widely applied to buildings and used for isolating wind and transmitting light, and a glass protective film is attached to the surface of a glass sheet by glass film coating equipment in the production and processing process of the glass;

at present, when the surface of glass is coated, a plurality of groups of conveying rollers rotate to convey the glass to be processed above, the upper surface of the glass is coated by a film coating roller after the glass enters film coating equipment, the upper surface of the glass needs to be turned over and coated by another surface after the film coating is finished, the simultaneous film coating of the upper surface and the lower surface of the glass is difficult to realize, the processing efficiency is low, and the processing process is troublesome;

when the glass is coated, dust and dirt attached to the surface of the glass can cause poor coating effect and poor quality of a coated glass product, and the glass film is difficult to be flatly and tightly attached to the surface of the glass in the coating process, so that the glass film attached to the surface of the glass is easy to wrinkle, bubbles are easy to remain between the glass film and the surface of the glass, and the quality of the product is not favorably improved;

in view of the above technical drawbacks, a solution is proposed.

Disclosure of Invention

The invention aims to provide a film covering method and equipment for glass production and processing, and solves the problems that in the prior art, simultaneous film covering on the upper surface and the lower surface of glass is difficult to realize, the processing efficiency is low, the film covering effect is poor due to dust and dirt attached to the surface of the glass, and the glass film is difficult to be flatly and tightly attached to the surface of the glass in the film covering process, so that the product quality is not favorably improved.

In order to achieve the purpose, the invention provides the following technical scheme:

a film coating method for glass production and processing comprises the following steps:

step one, spraying and cleaning glass: the glass conveying roller rotates and conveys the glass to be processed above, the glass to be processed enters a liquid spraying cleaning chamber in the glass cleaning box from an input port of the glass cleaning box, a liquid conveying pipe conveys clean water into a liquid distribution pipe, and the liquid distribution pipe sprays the clean water to the upper surface and the lower surface of the glass to be processed through an inclined liquid spraying head; the bristles on the peripheral surface of the cleaning bristle brush roller are contacted with the surface of the glass to be processed, and the upper and lower groups of cleaning bristle brush rollers rotate to remove dust and dirt attached to the upper and lower surfaces of the glass to be processed;

step two, blast drying of glass: the glass to be processed after being sprayed and scrubbed continuously moves and enters a hot air dewatering chamber, hot air is conveyed into a hot air gathering housing by a hot air conveying pipe, the hot air in the hot air gathering housing is uniformly sprayed to the upper surface and the lower surface of the glass to be processed through a hot air blowing head, and the upper surface and the lower surface of the glass to be processed are dried;

step three, glass is accurately guided into: the glass conveying rollers continue conveying the glass to be processed, the glass to be processed moves towards the direction of the glass film covering housings, and the glass guide mechanism enables the glass to be processed to accurately enter between the two groups of glass film covering housings, so that the glass is prevented from deviating or inclining in the entering process;

step four, glass film coating: glass to be processed enters between the two groups of glass film covering housings, film is put by the film putting rollers, the lateral film guiding rollers guide the conveying of the glass films, the film covering rollers are pressed downwards to enable the glass films to be attached to the upper surface and the lower surface of the glass to be processed, and the glass films are completely attached to the upper surface and the lower surface of the glass to be processed along with the movement of the glass to be processed and the film putting of the film putting rollers, so that the simultaneous film covering of the two surfaces of the glass is realized;

in the laminating process, the flattening whole roller in the flattening wrinkle-preventing mechanism applies pressure to the glass film on the surface of the glass, the flattening whole roller can rotate when the glass moves, the glass film is more tightly connected with the surface of the glass under the action of the flattening whole roller, the surface of the glass film is more flattened to prevent wrinkles, and bubbles are prevented from being remained between the surface of the glass film and the surface of the glass.

The invention further provides laminating equipment for glass production and processing, which comprises a laminating equipment mounting plate and laminating equipment supporting legs, wherein the laminating equipment supporting legs are fixedly mounted at the bottom of the laminating equipment mounting plate, the laminating equipment mounting plate comprises a front group and a rear group, a plurality of groups of glass conveying rollers are rotatably mounted between the two groups of laminating equipment mounting plates, one end, close to the glass input side, of the laminating equipment mounting plate is fixedly provided with a glass cleaning box through bolts, and the glass cleaning boxes are vertically symmetrical relative to the glass conveying rollers; openings for glass to pass through are formed in the two sides of the glass cleaning box, and the glass cleaning box is located between the two sets of film laminating equipment mounting plates;

one end, close to the glass output side, of the film laminating equipment mounting plate is fixedly provided with an upper group of glass laminating housings and a lower group of glass laminating housings through bolts, one surfaces, far away from each other, of the two groups of glass laminating housings are provided with film placing rollers, one surfaces, opposite to the two groups of glass laminating housings, of the two groups of glass laminating housings are provided with film pressing and laminating rollers, and one sides, facing the glass cleaning box, of the two groups of glass laminating housings are provided with lateral film guide rollers; two sets of be equipped with glass guiding mechanism between the laminating equipment mounting panel, glass guiding mechanism is located the entrance of glass tectorial membrane housing, and is two sets of the relative one side of glass tectorial membrane housing just is close to the position of export and installs and levelly and smoothly prevent fold mechanism.

Furthermore, the interior of the glass cleaning box is divided into a liquid spraying cleaning chamber and a hot air water removing chamber by a partition plate, a dirty liquid discharge pipe communicated with the liquid spraying cleaning chamber is installed at the bottom of the glass cleaning box, a brush roller driving shaft which is symmetrical up and down relative to a glass conveying roller is installed in the liquid spraying cleaning chamber, the brush roller driving shaft is rotationally connected with the glass cleaning box through a bearing, and a cleaning brush roller is fixedly installed on the outer peripheral surface of the brush roller driving shaft;

an upper group of liquid conveying pipes and a lower group of liquid conveying pipes are arranged in the liquid spraying cleaning chamber, liquid distribution pipes arranged along the Y-axis direction are arranged at the opposite ends of the two groups of liquid conveying pipes, and liquid spraying heads are obliquely arranged on the liquid distribution pipes in the direction facing the corresponding cleaning brush rollers; hot-blast hydroecium fixed mounting has upper and lower two sets of steam gathering housing, one side of steam gathering housing towards the laminating equipment mounting panel is the inclined plane, and installs multiunit steam blowing head on the inclined plane of steam gathering housing, install on the glass cleaning box with the communicating steam conveyer pipe of steam gathering housing.

Furthermore, drive air supply mechanism is installed at the top of glass clean box, drive air supply mechanism includes the drive compression case at glass clean box top through bolt fixed mounting, the positive outer wall of drive compression case has the rotating electrical machines through motor cabinet fixed mounting, the rotatory drive shaft to setting up along Y is installed to the output of rotating electrical machines, glass clean box is worn out to the one end of brush roller drive shaft, and the rotating drive shaft runs through drive compression case and is connected through a set of brush roller drive shaft transmission among them through the brush roller driving band, and is two sets of the brush roller drive shaft passes through the drive gear meshing and connects.

Furthermore, a reciprocating piston plate is movably mounted in the driving compression box, an elliptical extrusion disc is mounted on the part, located in the driving compression box, of the rotating driving shaft, the elliptical extrusion disc extrudes the reciprocating piston plate, and limiting protrusions are mounted on the inner top wall and the inner bottom wall of the driving compression box respectively; the reciprocating piston plate is fixedly provided with an extrusion rod at one side back to the elliptical extrusion disc, the peripheral surface of the extrusion rod is fixedly provided with an extrusion ring, the inner wall of the driving compression box is provided with a fixed rod, the fixed rod penetrates through the corresponding extrusion ring, the peripheral surface of the fixed rod is sleeved with a return spring, and the return spring is fixedly connected with the driving compression box, the inner wall and the corresponding extrusion ring;

a purification heating box communicated with the driving compression box is fixedly installed above one side, back to the elliptical extrusion disc, of the reciprocating piston plate, an air input pipe communicated with the purification heating box is installed at the top of the purification heating box, a hot air output pipe communicated with the driving compression box is fixedly installed on one side of the driving compression box, one end, far away from the driving compression box, of the hot air output pipe is connected with the hot air conveying pipe, and one-way valves are installed on the air input pipe and the hot air output pipe; the interior demountable installation of purification heating cabinet has dust filtration otter board and active carbon adsorption otter board, and the intercommunication department of purification heating cabinet and drive compression case installs electric heating wire.

Further, glass guiding mechanism passes between two sets of guiding mechanism connecting plates including installing the guiding mechanism connecting plate in the relative one side of two sets of laminating equipment mounting panels, pending processing glass, multiunit leading wheel installation piece is installed at the top of guiding mechanism connecting plate, and the bottom of leading wheel installation piece rotates and installs the glass leading wheel, and is two sets of slope input baffle, two sets of slope input baffle are all installed to the relative one side of laminating equipment mounting panel, and evenly install the ball on the inclined plane of slope input baffle.

Further, the leveling and wrinkle-preventing mechanism comprises a leveling mechanism mounting plate fixedly mounted on the glass film-coating housing through bolts and an electric cylinder mounting plate fixed at the bottom of the leveling mechanism mounting plate, a trapezoidal sliding block is slidably mounted at the bottom of the leveling mechanism mounting plate through a sliding rail, a push-pull electric cylinder is fixedly mounted on the electric cylinder mounting plate, and one end, far away from the electric cylinder mounting plate, of the push-pull electric cylinder is connected with the side wall of the trapezoidal sliding block; a downward pressing detection structure is arranged below the trapezoidal sliding block, and a detection structure connecting plate connected with the downward pressing detection structure is slidably arranged on one side of the electric cylinder mounting plate facing the trapezoidal sliding block;

a guide vertical rod is mounted on the electric cylinder mounting plate through a vertical rod fixing seat and penetrates through the detection structure connecting plate, a sleeving spring is arranged on the outer peripheral surface of the guide vertical rod, and the sleeving spring is fixedly connected with the detection structure connecting plate and the vertical rod fixing seat below the detection structure connecting plate; push down the below that detects the structure and install along the mounting bracket connecting rod of Y to setting up, the preceding, back both ends of mounting bracket connecting rod and the leveling roller mounting bracket fixed connection that the slope set up, and rotate through the roller between two sets of leveling roller mounting brackets and install down the whole roller that flattens.

Further, the downward pressing detection structure comprises a downward pressing rod fixedly connected with the connecting rod of the mounting frame, the downward pressing rod extends upwards into the upper mounting sleeve and is connected with the jacking block, the inner top wall of the upper mounting sleeve is fixedly provided with a pressure detection plate, a pressure sensor is arranged in the pressure detection plate, and the top of the jacking block is provided with an extrusion spring connected with the pressure detection plate;

spacing opening has been seted up respectively to the telescopic both sides of going up installation, and the both sides correspondence of jacking piece installs the direction arch that passes spacing opening, oblique guide slot has been seted up to the bottom terminal surface of trapezoidal sliding block, go up the telescopic top of installation and install the gyro wheel, and the upper portion of gyro wheel is located oblique guide slot.

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

1. according to the invention, clear water is sprayed to the upper surface and the lower surface of the glass to be processed through the liquid spraying head, the cleaning brush roller rotates and removes dust and dirt attached to the upper surface and the lower surface of the glass to be processed, the combination of spraying, washing and brushing is favorable for improving the cleaning effect and the cleaning efficiency of the glass, the hot air spraying head uniformly sprays hot air to the upper surface and the lower surface of the glass to be processed, the upper surface and the lower surface of the glass to be processed are quickly and effectively dried, the drying efficiency is remarkably improved, the adverse effect of the dust and dirt attached to the surface of the glass on the film coating process of the glass product can be effectively prevented, and the quality of the film-coated glass product is good;

2. according to the invention, the glass to be processed is gradually straightened and accurately enters between the two groups of glass film covering housings through the inclined input guide plate in the glass guide mechanism, the balls on the inclined surface of the inclined input guide plate can reduce friction, two side walls of the glass are contacted with the glass guide wheels, the damage to the glass by the two side walls due to friction is obviously reduced, the entering resistance is reduced, the glass guide mechanism can effectively avoid the deviation or inclination of the glass in the entering process, the smooth and rapid proceeding of the glass film covering process is ensured, and the film covering efficiency is improved while the film covering effect is improved;

3. according to the invention, the film is placed through the film placing roller, the lateral film guide roller guides the conveying of the glass film, and the film laminating roller is pressed downwards to enable the glass film to be attached to the upper surface and the lower surface of the glass to be processed, so that the two surfaces of the glass are simultaneously laminated, and the film laminating efficiency is obviously improved; the glass film is more tightly attached to the surface of the glass through the flattening and wrinkle-preventing mechanism, so that the surface of the glass film is more flattened to prevent wrinkles, bubbles are prevented from remaining between the glass film and the surface of the glass, and the film laminating effect and the quality of a film-laminated glass product are improved;

4. according to the glass cleaning device, the air supply mechanism is driven to suck external air, filter, adsorb and heat the external air, so that the input air is kept clean, pollution of dust particles in hot air to cleaned glass can be avoided, the hot air conveying pipe conveys the hot air to the hot air conveying pipe, the air supply mechanism is driven to drive the cleaning brush roller to rotate while hot air conveying operation is carried out, a driving device is not required to be additionally arranged to drive the scrubbing and cleaning structure, and the equipment cost and the operation cost are reduced.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings;

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

FIG. 2 is a schematic view of the structure of the glass cleaning box of the present invention;

FIG. 3 is an enlarged view of the glass guide mechanism of FIG. 1;

FIG. 4 is a schematic top view of the glass guide mechanism of the present invention;

FIG. 5 is an enlarged view of the glass coated shroud of FIG. 1;

FIG. 6 is a schematic structural view of the wrinkle preventing and leveling mechanism according to the present invention;

FIG. 7 is a schematic view (from above) of the connection of the lower leveling roller and the leveling roller mounting bracket of the present invention;

FIG. 8 is a schematic structural view of the driving blowing mechanism of the present invention;

FIG. 9 is a schematic illustration of the drive of the cleaning brush rollers, brush roller drive shaft and rotary drive shaft of the present invention (left side view);

fig. 10 is a schematic structural view of a push-down detection structure according to the present invention.

Reference numerals: 1. mounting a film laminating device; 2. a film laminating device supports legs; 3. a glass conveying roller; 4. a glass cleaning box; 41. a spray cleaning chamber; 42. a hot air water removing chamber; 43. a dirty liquid discharge pipe; 5. a glass film-coated housing; 51. a film releasing roller; 52. a lateral film guide roller; 53. pressing down the laminating roller; 6. flattening the anti-wrinkle mechanism; 7. driving the air supply mechanism; 8. a glass guide mechanism; 9. cleaning the brush roller; 10. a brush roller drive shaft; 11. a transfusion tube; 12. a liquid distribution pipe; 13. a liquid jet head; 14. a hot gas accumulation housing; 15. a hot gas delivery pipe; 16. a hot gas blowing head; 17. the brush roller drives the belt; 18. a transmission gear; 61. a leveling mechanism mounting plate; 62. pushing and pulling the electric cylinder; 63. a trapezoidal slider; 631. an inclined guide groove; 64. a press down detection structure; 65. pressing the whole roller downwards; 66. a leveling roller mounting frame; 67. a mounting bracket connecting rod; 68. detecting a structural connecting plate; 69. a guide vertical rod; 610. sleeving a spring; 611. an electric cylinder mounting plate; 641. a sleeve is arranged on the upper part; 642. a lower pressure lever; 643. a roller; 644. jacking blocks; 645. a compression spring; 646. a guide projection; 647. limiting the opening; 648. a pressure detection plate; 71. driving the compression box; 72. purifying and heating the box; 73. a rotating electric machine; 74. a rotary drive shaft; 75. an elliptical extrusion disc; 76. an extrusion stem; 77. a fixing rod; 78. an extrusion ring; 79. a return spring; 710. a limiting bulge; 711. an air input pipe; 712. a hot gas output pipe; 713. a dust filter screen plate; 714. an activated carbon adsorption screen plate; 715. an electric heating wire; 716. a reciprocating piston plate; 81. the guide mechanism is connected with the plate; 82. a glass guide wheel; 83. a guide wheel mounting block; 84. inclining the input guide plate; 85. and a ball.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1-7, the film coating device involved in the film coating method comprises a film coating device mounting plate 1 and film coating device supporting legs 2, wherein the film coating device supporting legs 2 are mounted at the bottom of the film coating device mounting plate 1, the number of the film coating device supporting legs 2 is multiple, the film coating device supporting legs are fixed with the film coating device mounting plate 1 through bolts, the film coating device mounting plate 1 comprises a front group and a rear group, multiple groups of glass conveying rollers 3 are rotatably mounted between the two groups of film coating device mounting plates 1, the glass conveying rollers 3 are driven by electric power, the number of the glass conveying rollers 3 is multiple, the glass conveying rollers 3 are uniformly mounted in the extending direction of the film coating device mounting plate 1, one end, close to the glass input side, of the film coating device mounting plate 1 is fixedly provided with a glass cleaning box 4 through bolts, and the glass cleaning box 4 is vertically symmetrical with respect to the glass conveying rollers 3; openings for glass to pass through are formed in the two sides of the glass cleaning box 4, and the glass cleaning box 4 is located between the two sets of film laminating equipment mounting plates 1;

the interior of the glass cleaning box 4 is divided into a liquid spraying cleaning chamber 41 and a hot air water removing chamber 42 by a partition board, an opening for glass to pass through is formed in the middle of the partition board, a dirty liquid discharge pipe 43 communicated with the liquid spraying cleaning chamber 41 is installed at the bottom of the glass cleaning box 4, a valve is installed on the dirty liquid discharge pipe 43, and the dirty liquid discharge pipe 43 is used for discharging dirty liquid generated in the cleaning process of the glass in the liquid spraying cleaning chamber 41; a brush roller driving shaft 10 which is symmetrical up and down relative to the glass conveying roller 3 is arranged in the liquid spraying cleaning chamber 41, the brush roller driving shaft 10 is connected with the glass cleaning box 4 in a rotating mode through a bearing, a cleaning brush roller 9 is fixedly arranged on the outer peripheral surface of the brush roller driving shaft 10, bristles are arranged on the outer peripheral surface of the cleaning brush roller 9, and the bristles of the cleaning brush roller 9 are in contact with the surface of glass;

an upper group of liquid conveying pipes 11 and a lower group of liquid conveying pipes 11 are arranged in the liquid spraying cleaning chamber 41, liquid distribution pipes 12 arranged along the Y-axis direction are arranged at the opposite ends of the two groups of liquid conveying pipes 11, and liquid spraying heads 13 are obliquely arranged on the liquid distribution pipes 12 facing the direction corresponding to the cleaning brush rollers 9; the hot air water removing chamber 42 is fixedly provided with an upper hot air gathering housing 14 and a lower hot air gathering housing 14, one side of the hot air gathering housing 14 facing the laminating equipment mounting plate 1 is an inclined surface, a plurality of groups of hot air blowing heads 16 are arranged on the inclined surface of the hot air gathering housing 14, and a hot air conveying pipe 15 communicated with the hot air gathering housing 14 is arranged on the glass cleaning box 4;

an upper group of glass film coating housings 5 and a lower group of glass film coating housings 5 are fixedly arranged at one end, close to the glass output side, of the film coating equipment mounting plate 1 through bolts, film placing rollers 51 are arranged on the surfaces, away from each other, of the two groups of glass film coating housings 5, lower pressing film coating rollers 53 are arranged on the surfaces, opposite to the two groups of glass film coating housings 5, and lateral film guide rollers 52 are arranged on the sides, facing the glass cleaning box 4, of the two groups of glass film coating housings 5; a glass guide mechanism 8 is arranged between the two groups of film coating equipment mounting plates 1, and the glass guide mechanism 8 is positioned at the inlet of the glass film coating housing 5;

glass guiding mechanism 8 is including installing the guiding mechanism connecting plate 81 in the relative one side of two sets of laminating equipment mounting panels 1, treat that processing glass passes between two sets of guiding mechanism connecting plates 81, multiunit leading wheel installation piece 83 is installed at the top of guiding mechanism connecting plate 81, and the bottom of leading wheel installation piece 83 rotates installs glass leading wheel 82, slope input baffle 84 is all installed to the relative one side of two sets of laminating equipment mounting panels 1, the relative one side of two sets of slope input baffle 84 is the inclined plane, two distance between them of two sets of slope input baffle 84 towards glass laminating housing 5 one side is less than both distance of its opposite side, and evenly install ball 85 on the inclined plane of slope input baffle 84.

The film coating method for glass production and processing specifically comprises the following steps:

step one, spraying and cleaning glass: the glass conveying roller 3 rotates and conveys the glass to be processed above, the glass to be processed enters the liquid spraying cleaning chamber 41 in the glass cleaning box 4 from the input port, the liquid conveying pipe 11 conveys clean water into the liquid distribution pipe 12, and the liquid distribution pipe 12 sprays the clean water to the upper surface and the lower surface of the glass to be processed through the inclined liquid spraying head 13; the bristles on the peripheral surface of the cleaning bristle brush roller 9 are contacted with the surface of the glass to be processed, and the upper and lower groups of cleaning bristle brush rollers 9 rotate to remove dust and dirt attached to the upper and lower surfaces of the glass to be processed;

step two, blast drying of glass: the glass to be processed after being sprayed and scrubbed continues to move and enters the hot air water removal chamber 42, hot air is conveyed into the hot air gathering housing 14 by the hot air conveying pipe 15, the hot air in the hot air gathering housing 14 is uniformly sprayed to the upper surface and the lower surface of the glass to be processed through the hot air spraying and blowing head 16, so that liquid drops attached to the surface of the glass are blown off, the residual clear water on the surface of the glass is evaporated under the action of heat, the upper surface and the lower surface of the glass to be processed are quickly and effectively dried, and the drying efficiency is remarkably improved;

step three, glass is accurately led in: the glass conveying rollers 3 continue to convey the glass to be processed, the glass to be processed moves towards the glass film covering housings 5, and the glass guide mechanism 8 enables the glass to be processed to accurately enter between the two groups of glass film covering housings 5, so that the glass is prevented from deviating or inclining in the entering process;

the specific import process is as follows: the inclined input guide plate 84 in the glass guide mechanism 8 gradually straightens the glass to be processed which is about to enter, the balls 85 on the inclined surface of the inclined input guide plate 84 can reduce friction, the damage to the inclined input guide plate 84 due to the friction of two side walls of the glass can be obviously reduced, and the inclined input guide plate helps to enable the glass to smoothly enter by reducing the resistance; the glass accurately enters between the two groups of guide mechanism connecting plates 81 under the action of the inclined input guide plate 84, and the two groups of guide mechanism connecting plates 81 guide the film covering process of the glass, so that the glass is prevented from inclining in the film covering process, and the film covering efficiency and the film covering effect are improved; in the film covering process, two side walls of the glass are in contact with the glass guide wheel 82, and the glass guide wheel 82 rotates in the movement process of the glass, so that the friction force on the two side walls in the movement process of the glass can be reduced, the smooth film covering process is facilitated, and the protection effect on the two side walls of the glass is further improved;

step four, glass film coating: glass to be processed enters between the two groups of glass film covering housings 5, the film releasing roller 51 releases films, the lateral film guiding roller 52 guides the conveying of the glass films, the film covering roller 53 is pressed downwards to enable the glass films to be attached to the upper surface and the lower surface of the glass to be processed, the glass films are completely attached to the upper surface and the lower surface of the glass to be processed along with the movement of the glass to be processed and the film releasing of the film releasing roller 51, and the simultaneous film covering of the two surfaces of the glass is realized.

Further, leveling and wrinkle-preventing mechanisms 6 are mounted on the opposite surfaces of the two groups of glass film-coated housings 5 and in positions close to the outlets, each leveling and wrinkle-preventing mechanism 6 comprises a leveling mechanism mounting plate 61 fixedly mounted on the glass film-coated housings 5 through bolts and an electric cylinder mounting plate 611 fixed to the bottom of the leveling mechanism mounting plate 61, a trapezoidal sliding block 63 is slidably mounted at the bottom of the leveling mechanism mounting plate 61 through a sliding rail, a push-pull electric cylinder 62 is fixedly mounted on the electric cylinder mounting plate 611, and one end, far away from the electric cylinder mounting plate 611, of the push-pull electric cylinder 62 is connected with the side wall of the trapezoidal sliding block 63; the bottom end face of the trapezoidal sliding block 63 is an inclined plane, a downward pressing detection structure 64 is arranged below the trapezoidal sliding block 63, and a detection structure connecting plate 68 connected with the downward pressing detection structure 64 is slidably mounted on one side, facing the trapezoidal sliding block 63, of the electric cylinder mounting plate 611;

an installation rack connecting rod 67 arranged along the Y direction is arranged below the downward pressing detection structure 64, the front end and the rear end of the installation rack connecting rod 67 are fixedly connected with the obliquely arranged leveling roller installation racks 66, and downward pressing leveling rollers 65 are rotatably arranged between the two sets of leveling roller installation racks 66 through roller shafts; before film covering operation, the trapezoidal sliding block 63 is pushed or pulled by the push-pull electric cylinder 62, and in the transverse movement process of the trapezoidal sliding block 63, the height of the downward pressing leveling roller 65 is adjusted, so that the downward pressing leveling roller 65 can be helped to downwards press the glass surface during film covering operation;

the electric cylinder mounting plate 611 is provided with a guide vertical rod 69 through a vertical rod fixing seat, the guide vertical rod 69 penetrates through the detection structure connecting plate 68, the guide vertical rod 69 adjusts the height of the pressing leveling roller 65, the outer peripheral surface of the guide vertical rod 69 is provided with a sleeve spring 610, the sleeve spring 610 is fixedly connected with the detection structure connecting plate 68 and the vertical rod fixing seat below the detection structure connecting plate, the pressing leveling roller 65 is supported through the thrust action of the sleeve spring 610, and a certain buffering action is provided to ensure the smooth film covering process; preferably, a glass film cutting structure is installed on the outlet side of the glass film-coating housing 5, the glass film cutting structure is the prior art and is not described herein any more, and the glass film cutting structure is mainly used for cutting a protective film on glass after film coating operation;

in the tectorial membrane in-process, level and prevent that the flattening roller 65 that pushes down in the fold mechanism 6 applies pressure to the glass membrane on glass surface, can make the flattening whole roller 65 rotate down when glass's motion, the effect through flattening whole roller 65 down makes the glass membrane inseparabler with being connected on glass surface, makes the surface of glass membrane level and more smooth in order to prevent the fold to and avoid the bubble to remain between glass membrane and glass surface, the quality of the glass product after tectorial membrane effect and tectorial membrane has been promoted.

Example two:

as shown in fig. 1 and 8, the present embodiment is different from embodiment 1 in that a driving air supply mechanism 7 is installed at the top of the glass cleaning box 4, the driving air supply mechanism 7 includes a driving compression box 71 fixedly installed at the top of the glass cleaning box 4 through bolts, a reciprocating piston plate 716 is movably installed in the driving compression box 71, a limiting protrusion 710 is respectively installed on the inner top wall and the inner bottom wall of the driving compression box 71, and the limiting protrusion 710 limits the left displacement distance of the reciprocating piston plate 716; a purification heating box 72 is fixedly arranged above one side of the reciprocating piston plate 716, and the purification heating box 72 is communicated with the driving compression box 71;

an air input pipe 711 communicated with the top of the purification heating box 72 is installed at the top of the purification heating box 72, a hot gas output pipe 712 communicated with the top of the drive compression box 71 is fixedly installed at one side of the drive compression box 71, one end, far away from the drive compression box 71, of the hot gas output pipe 712 is connected with the hot gas conveying pipe 15, check valves are installed on the air input pipe 711 and the hot gas output pipe 712, external air enters the purification heating box 72 through the air input pipe 711, and hot gas in the drive compression box 71 is conveyed out through the hot gas output pipe 712; a dust filtering screen plate 713 and an activated carbon adsorption screen plate 714 are detachably mounted in the purification heating box 72, an electric heating wire 715 is mounted at the communication position of the purification heating box 72 and the driving compression box 71, and the electric heating wire 715 can convert electric energy into heat energy;

in the working process, the reciprocating piston plate 716 transversely reciprocates in the driving compression box 71, when the reciprocating piston plate 716 moves to the left side, external air enters the driving compression box 71 through the air input pipe 711, the dust filtering net plate 713 and the activated carbon adsorption net plate 714 filter and adsorb dust particles in the air, so that the input air is kept clean, the electric heating wire 715 converts electric energy into heat energy and heats the purified air to generate clean hot air, when the reciprocating piston plate 716 moves to the right side, the internal clean hot air is pushed and is conveyed out through the hot air conveying pipe 15, and the pollution of dust particles in the hot air to the cleaned glass can be avoided.

Example three:

as shown in fig. 9, the present embodiment is different from embodiments 1 and 2 in that a rotary motor 73 is fixedly mounted on the outer wall of the front face of the driving compression box 71 through a motor base, a rotary driving shaft 74 arranged along the Y direction is mounted on the output end of the rotary motor 73, an elliptical pressing disc 75 is mounted on the part of the rotary driving shaft 74 located in the driving compression box 71, and the elliptical pressing disc 75 presses the reciprocating piston plate 716, during operation, the rotary motor 73 rotates the rotary driving shaft 74, the rotary driving shaft 74 rotates the elliptical pressing disc 75 eccentrically, and the thrust applied to the reciprocating piston plate 716 by the elliptical pressing disc 75 during rotation constantly changes;

an extrusion rod 76 is fixedly installed on one side, opposite to the elliptical extrusion disc 75, of the reciprocating piston plate 716, an extrusion ring 78 is fixedly installed on the outer peripheral surface of the extrusion rod 76, a fixing rod 77 is installed on the inner wall of the driving compression box 71 and penetrates through the corresponding extrusion ring 78, the fixing rod 77 guides the motion process of the extrusion ring 78, a return spring 79 is sleeved on the outer peripheral surface of the fixing rod 77, the return spring 79 is fixedly connected with the driving compression box 71, the inner wall and the corresponding extrusion ring 78, and the reciprocating piston plate 716 is made to reciprocate left and right under the matching action of the elliptical extrusion disc 75 and the return spring 79, so that air input and hot air output operations are realized;

one end of the brush roller driving shaft 10 penetrates through the glass cleaning box 4, one ends of the two groups of rotating driving shafts 74 penetrate through the driving compression box 71 and are meshed and connected through the transmission gear 18, in the working process, the rotating driving shafts 74 drive the corresponding brush roller driving shafts 10 to rotate through the brush roller driving belt 17, the other group of brush roller driving shafts 10 are enabled to rotate along with the rotating driving shafts through the transmission gear 18, therefore, the two groups of cleaning brush rollers 9 rotate and brush and clean the upper surface and the lower surface of glass, driving equipment is not required to be additionally arranged to drive the brushing and cleaning structure, and equipment cost and operation cost are reduced.

Example four:

as shown in fig. 6 and 10, the present embodiment differs from

embodiments

1, 2 and 3 in that the downward pressing detection structure 64 includes a downward pressing rod 642 fixedly connected to the mounting bracket connecting rod 67, a lifting block 644 is slidably mounted in the upper mounting sleeve 641, the downward pressing rod 642 extends upward into the upper mounting sleeve 641 and is connected to the lifting block 644, a pressure detection plate 648 is fixedly mounted on the inner top wall of the upper mounting sleeve 641, a pressure sensor is mounted in the pressure detection plate 648, a pressing spring 645 is mounted on the top of the lifting block 644, and the pressing spring 645 extends upward and is fixedly connected to the bottom of the pressure detection plate 648;

two sides of the upper installation sleeve 641 are respectively provided with a limiting opening 647, two sides of the jacking block 644 are correspondingly provided with a guide protrusion 646 penetrating through the limiting opening 647, in an initial state, the extrusion spring 645 is in an uncompressed state, the bottom of the guide protrusion 646 presses the bottom end face of the limiting opening 647, and the limiting opening 647 limits the movement range of the guide protrusion 646 and guides the movement process of the guide protrusion 646; in the film laminating process, the lower flattening roller 65 presses the glass film on the surface of the glass downwards, the lower pressing rod 642 applies upward thrust to the jacking block 644, the pressing spring 645 presses the pressure detection plate 648, the pressure detection plate 648 detects the received pressing force, the magnitude of the downward pressure applied to the surface of the glass by the lower flattening roller 65 is facilitated, and the downward pressure of the lower flattening roller 65 is facilitated to be adjusted by an operator according to actual needs, so that the phenomenon that wrinkles and residual bubbles in the glass film are difficult to remove due to too small downward pressure is avoided, the phenomenon that the glass is cracked and damaged or the glass film is damaged due to too large downward pressure is avoided, and the service performance of equipment is improved;

preferably, an inclined guide groove 631 is formed in an end face of a bottom end of the trapezoidal sliding block 63, a roller 643 is mounted at the top of the upper mounting sleeve 641, and an upper portion of the roller 643 is located in the inclined guide groove 631, when the height of the lower platen roller 65 and the applied downward pressure are adjusted, the trapezoidal sliding block 63 slides laterally due to the action of the push-pull electric cylinder 62, the roller 643 moves along the inclined guide groove 631, the inclined guide groove 631 plays a guiding role, friction force in the moving process can be reduced due to rolling of the roller 643, and the adjusting process is smoother.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A film coating method for glass production and processing is characterized by comprising the following steps:

step one, spraying and cleaning glass: the glass conveying roller (3) rotates and conveys the glass to be processed above, the glass to be processed enters a liquid spraying cleaning chamber (41) in the glass cleaning box (4) from an input port, clear water is conveyed into a liquid distribution pipe (12) by a liquid conveying pipe (11), and the liquid distribution pipe (12) sprays the clear water to the upper surface and the lower surface of the glass to be processed through an inclined liquid spraying head (13); bristles on the peripheral surface of the cleaning bristle brush roller (9) are contacted with the surface of the glass to be processed, and the upper and lower groups of cleaning bristle brush rollers (9) rotate to remove dust and dirt attached to the upper and lower surfaces of the glass to be processed;

step two, blast drying of glass: the sprayed and scrubbed glass to be processed continuously moves and enters a hot air water removal chamber (42), hot air is conveyed into a hot air gathering housing (14) by a hot air conveying pipe (15), the hot air in the hot air gathering housing (14) is uniformly sprayed to the upper and lower surfaces of the glass to be processed through a hot air spraying and blowing head (16), and the upper and lower surfaces of the glass to be processed are dried;

step three, glass is accurately guided into: the glass conveying rollers (3) continue to convey the glass to be processed, the glass to be processed moves towards the glass film coating housings (5), and the glass guide mechanism (8) enables the glass to be processed to accurately enter between the two groups of glass film coating housings (5) so as to avoid deviation or inclination in the glass entering process;

step four, glass film coating: glass to be processed enters between the two groups of glass film coating housings (5), a film placing roller (51) is used for placing films, a lateral film guiding roller (52) is used for guiding the conveying of the glass films, a film coating roller (53) is pressed downwards to enable the glass films to be attached to the upper surface and the lower surface of the glass to be processed, the glass films are completely attached to the upper surface and the lower surface of the glass to be processed along with the movement of the glass to be processed and the film placing of the film placing roller (51), and the simultaneous film coating of the two surfaces of the glass is realized;

in the tectorial membrane process, flattening roller (65) are flattened to pushing down in the fold mechanism (6) is prevented to level and smooth and apply pressure to the glass membrane on glass surface, can make flattening whole roller (65) rotate down when glass's motion, and the effect through flattening whole roller (65) down makes being connected of glass membrane and glass surface inseparabler, makes the surface of glass membrane level and more in order to prevent the fold to and avoid the bubble to remain between glass membrane and glass surface.

2. The laminating equipment for glass production and processing comprises a laminating equipment mounting plate (1) and laminating equipment supporting legs (2), wherein the laminating equipment supporting legs (2) are fixedly mounted at the bottom of the laminating equipment mounting plate (1), and the laminating equipment mounting plate (1) comprises a front group and a rear group, and is characterized in that a plurality of groups of glass conveying rollers (3) are rotatably mounted between the two groups of laminating equipment mounting plates (1), a glass cleaning box (4) is fixedly mounted at one end, close to the glass input side, of the laminating equipment mounting plate (1) through bolts, and the glass cleaning box (4) is vertically symmetrical about the glass conveying rollers (3); openings for glass to pass through are formed in the two sides of the glass cleaning box (4), and the glass cleaning box (4) is located between the two sets of film laminating equipment mounting plates (1);

an upper group of glass film coating housings (5) and a lower group of glass film coating housings (5) are fixedly arranged at one end, close to the glass output side, of the film coating equipment mounting plate (1) through bolts, film placing rollers (51) are arranged on the surfaces, far away from each other, of the two groups of glass film coating housings (5), pressing film coating rollers (53) are arranged on the opposite surfaces of the two groups of glass film coating housings (5), and lateral film guide rollers (52) are arranged on one sides, facing the glass cleaning box (4), of the two groups of glass film coating housings (5); two sets of be equipped with glass guiding mechanism (8) between laminating equipment mounting panel (1), glass guiding mechanism (8) are located the entrance of glass tectorial membrane housing (5), and are two sets of glass tectorial membrane housing (5) one side relatively and be close to the position of export and install and level and prevent fold mechanism (6).

3. The laminating apparatus for glass production and processing according to claim 2, wherein the interior of the glass cleaning box (4) is divided into a liquid spraying cleaning chamber (41) and a hot air water removing chamber (42) by a partition plate, a dirty liquid discharging pipe (43) communicated with the liquid spraying cleaning chamber (41) is installed at the bottom of the glass cleaning box (4), a brush roller driving shaft (10) which is symmetrical up and down with respect to the glass conveying roller (3) is installed in the liquid spraying cleaning chamber (41), the brush roller driving shaft (10) is connected with the glass cleaning box (4) in a rotating manner through a bearing, and a cleaning brush roller (9) is fixedly installed on the outer circumferential surface of the brush roller driving shaft (10);

an upper group of liquid conveying pipes (11) and a lower group of liquid conveying pipes (11) are arranged in the liquid spraying cleaning chamber (41), liquid distribution pipes (12) arranged along the Y-axis direction are arranged at the opposite ends of the two groups of liquid conveying pipes (11), and liquid spraying heads (13) are obliquely arranged on the liquid distribution pipes (12) in the direction facing the corresponding cleaning hairbrush rollers (9); hot-blast hydroecium (42) fixed mounting has upper and lower two sets of steam gathering housing (14), steam gathering housing (14) is the inclined plane towards one side of laminating equipment mounting panel (1), and installs multiunit steam blowing head (16) on the inclined plane of steam gathering housing (14), install on glass clean box (4) with steam gathering housing (14) communicating steam conveyer pipe (15).

4. The laminating device for glass production and processing, according to claim 3, characterized in that a driving air supply mechanism (7) is installed at the top of the glass cleaning box (4), the driving air supply mechanism (7) comprises a driving compression box (71) fixedly installed at the top of the glass cleaning box (4) through bolts, a rotating motor (73) is fixedly installed on the outer wall of the front face of the driving compression box (71) through a motor base, a rotating driving shaft (74) arranged along the Y direction is installed at the output end of the rotating motor (73), one end of the brush roller driving shaft (10) penetrates out of the glass cleaning box (4), the rotating driving shaft (74) penetrates through the driving compression box (71) and is in transmission connection with one group of brush roller driving shafts (10) through a brush roller driving belt (17), and the two groups of brush roller driving shafts (10) are in meshing connection through a transmission gear (18).

5. The laminating device for glass production and processing according to claim 4, wherein a reciprocating piston plate (716) is movably installed in the driving compression box (71), an elliptical extrusion disc (75) is installed on a part, located in the driving compression box (71), of the rotating driving shaft (74), the elliptical extrusion disc (75) extrudes the reciprocating piston plate (716), and limiting bulges (710) are respectively installed on the inner top wall and the inner bottom wall of the driving compression box (71); one side, back to the elliptic extrusion disc (75), of the reciprocating piston plate (716) is fixedly provided with an extrusion rod (76), the peripheral surface of the extrusion rod (76) is fixedly provided with an extrusion ring (78), the inner wall of the driving compression box (71) is provided with a fixing rod (77), the fixing rod (77) penetrates through the corresponding extrusion ring (78), the peripheral surface of the fixing rod (77) is sleeved with a return spring (79), and the return spring (79) is fixedly connected with the driving compression box (71), the inner wall and the corresponding extrusion ring (78);

a purification heating box (72) communicated with the driving compression box (71) is fixedly installed above one side, back to the elliptical extrusion disc (75), of the reciprocating piston plate (716), an air input pipe (711) communicated with the purification heating box (72) is installed at the top of the purification heating box (72), a hot air output pipe (712) communicated with the driving compression box is fixedly installed on one side of the driving compression box (71), one end, far away from the driving compression box (71), of the hot air output pipe (712) is connected with the hot air conveying pipe (15), and one-way valves are installed on the air input pipe (711) and the hot air output pipe (712); the dust filtering net plate (713) and the activated carbon adsorption net plate (714) are detachably mounted in the purification heating box (72), and an electric heating wire (715) is mounted at the communication position of the purification heating box (72) and the driving compression box (71).

6. The laminating device for glass production and processing as claimed in claim 2, wherein the glass guide mechanism (8) comprises guide mechanism connecting plates (81) arranged on the opposite surfaces of the two groups of laminating device mounting plates (1), the glass to be processed passes through the two groups of guide mechanism connecting plates (81), a plurality of groups of guide wheel mounting blocks (83) are arranged at the tops of the guide mechanism connecting plates (81), the glass guide wheels (82) are rotatably arranged at the bottoms of the guide wheel mounting blocks (83), inclined input guide plates (84) are arranged on the opposite surfaces of the two groups of laminating device mounting plates (1), the opposite surfaces of the inclined input guide plates (84) are inclined surfaces, and balls (85) are uniformly arranged on the inclined surfaces of the inclined input guide plates (84).

7. The film covering equipment for glass production and processing as claimed in claim 2, wherein the leveling fold-prevention mechanism (6) comprises a leveling mechanism mounting plate (61) fixedly mounted on the glass film covering housing (5) through bolts and an electric cylinder mounting plate (611) fixed at the bottom of the leveling mechanism mounting plate (61), a trapezoidal sliding block (63) is slidably mounted at the bottom of the leveling mechanism mounting plate (61) through a sliding rail, a push-pull electric cylinder (62) is fixedly mounted on the electric cylinder mounting plate (611), and one end, away from the electric cylinder mounting plate (611), of the push-pull electric cylinder (62) is connected with the side wall of the trapezoidal sliding block (63); a downward pressing detection structure (64) is arranged below the trapezoidal sliding block (63), and a detection structure connecting plate (68) connected with the downward pressing detection structure (64) is slidably mounted on one side, facing the trapezoidal sliding block (63), of the electric cylinder mounting plate (611);

a guide vertical rod (69) is mounted on the electric cylinder mounting plate (611) through a vertical rod fixing seat, the guide vertical rod (69) penetrates through the detection structure connecting plate (68), a sleeve spring (610) is arranged on the outer peripheral surface of the guide vertical rod (69), and the sleeve spring (610) is fixedly connected with the detection structure connecting plate (68) and the vertical rod fixing seat below the detection structure connecting plate; push down the below that detects structure (64) and install along Y to mounting bracket connecting rod (67) that sets up, preceding, back both ends of mounting bracket connecting rod (67) and the level and smooth roller mounting bracket (66) fixed connection that the slope set up, and rotate through the roller between two sets of level and smooth roller mounting bracket (66) and install down whole roller (65) that flatten.

8. The laminating device for glass production and processing according to claim 7, wherein the downward pressure detecting structure (64) comprises a downward pressure rod (642) fixedly connected with the mounting rack connecting rod (67), the downward pressure rod (642) extends upwards into the upper mounting sleeve (641) and is connected with the jacking block (644), the inner top wall of the upper mounting sleeve (641) is fixedly provided with a pressure detecting plate (648), a pressure sensor is arranged in the pressure detecting plate (648), and the top of the jacking block (644) is provided with a squeezing spring (645) connected with the pressure detecting plate (648);

spacing opening (647) have been seted up respectively to the both sides of going up installation sleeve (641), and the both sides of jacking piece (644) are correspondingly installed and are passed guide protrusion (646) of spacing opening (647), oblique guide slot (631) have been seted up to the bottom end terminal surface of trapezoidal sliding block (63), gyro wheel (643) are installed at the top of going up installation sleeve (641), and the upper portion of gyro wheel (643) is located oblique guide slot (631).