CN112604911A

CN112604911A - Double-sided coating equipment and processing technology applying same

Info

Publication number: CN112604911A
Application number: CN202011553153.0A
Authority: CN
Inventors: 赵财; 王宝友
Original assignee: Suzhou Acme Machinery Co ltd
Current assignee: Suzhou Acme Machinery Co ltd
Priority date: 2020-12-24
Filing date: 2020-12-24
Publication date: 2021-04-06

Abstract

The invention relates to a double-sided coating device, which comprises a front-sided coating device and a back-sided coating device, wherein the back-sided coating device comprises a second frame, a first guide roller, a traction roller, a second guide roller and a second coating roller which are sequentially distributed below a substrate in the back-sided coating direction of the substrate are erected on the second frame, a glue groove for infiltrating part of the second coating roller is arranged right below the second coating roller, the second guide roller is arranged on one side of the second coating roller, a second scraper is fixed on the other side of the second coating roller, the blade edge of the second scraper is in abutting connection with the outer surface of the second coating roller, the front-sided coating device is arranged below the back-sided coating device, and a middle roller is arranged between the front-sided coating device and the back-sided coating device; the invention provides high-efficiency double-sided coating equipment capable of realizing double-sided coating on one coating line and a processing technology applying the double-sided coating equipment.

Description

Double-sided coating equipment and processing technology applying same

Technical Field

The invention relates to the technical field of coating, in particular to double-sided coating equipment and a processing technology applying the same.

Background

The coating and compounding equipment in the prior art is mainly applied to the gluing, coating and compounding processing of various reel base materials such as plastic films, paper, electrochemical aluminum, cloth, leather and the like. It is widely applied to various packaging fields and has wide development prospect. The coating and compounding equipment comprises three types, namely gluing and coating on a beam splitter roll, gluing and coating on an anilox roll and spraying and extruding and coating on hot melt adhesive.

Smooth roll size coating this size coating is usually applied by two roll transfer coating. The size of the coating amount can be adjusted by adjusting the gap between the gluing roller and the coating roller. The structure of the whole coating head part is complex, the processing precision and the assembly precision of the gluing roller, the coating roller, the traction roller and the scraper are required to be high, and the cost is high. Because the coating machine mainly adopts the high-precision smooth roll to carry out gluing and coating, the coating effect is good, the coating amount can be adjusted through the gap between the gluing roll and the coating roll, and can also be flexibly controlled through the micro-adjustment of the coating scraper, and the coating precision is high. The application of the coating composite equipment is also the widest.

Anilox roll size coating this coating apparatus uses mainly an anilox (gravure) coating roll for size coating. The coating is uniform, and the coating amount is relatively accurate (but the coating amount is difficult to adjust). When coating with an anilox roller, the amount of coating is mainly related to the depth of the pits of the anilox roller and the accuracy of the glue type. The deeper the depth of the pits of the anilox roller, the more the amount of glue transferred from the pits to the substrate correspondingly; conversely, the shallower the depth of the cells of the anilox roll, the less the amount transferred to the substrate. There is also a large relationship with viscosity.

Too high and too low glue viscosity are detrimental to the proper transfer of glue. The glue has high viscosity and is difficult to transfer, and the glue is easy to flow when being too thin, so that the gluing is not uniform, and longitudinal or transverse flowing water marks are easy to generate. Therefore, once the kind of coated anilox roll and glue are fixed, it is difficult to adjust the coating amount thereof, which is a main reason why the application of the anilox roll is limited.

The coating equipment mainly heats and melts the solid glue, and then the glue is directly sprayed on a substrate through a coating die head by hydraulic loading. Hot melt adhesive coating is a new technology developed in recent decades, drying equipment is not needed for hot melt adhesive coating, and energy consumption is low; the hot melt adhesive is 100% of solid adhesive component and does not contain toxic organic solvent. The common glue coating mostly adopts toxic organic solvents (such as benzene and the like) to dilute the glue, and the toxic gas caused by the dilution has serious harm to operators. Hot melt adhesive coating has its unique advantages over conventional size coating. The hot melt adhesive coating is a green environment-friendly coating technology, has the advantages of high production speed, high efficiency, low cost, small equipment occupation area and short investment recovery period, is an economical and practical investment project, and is widely applied to the industries of packaging, medicine, automobiles, clothing, electronics and the like. The hot melt adhesive coating has huge market development prospect, the development ratio of the technology on the market is getting larger and larger, and new application fields can continuously appear.

In the substrate coating industry, coating mechanisms may be employed to apply the respective slurries to the substrate surface. The traditional coating mechanism can only carry out single-side coating, is low in efficiency, and can only carry out one-time repeated coating process on single-time coating equipment when double-side coating is required, so that the efficiency of the double-side coating equipment is improved by at least one time, and the double-side coating mechanism also has the advantages of reducing manual operation, reducing the substrate loss of the equipment on substrate repetition, reducing the drying times of an oven, reducing energy consumption and the like.

In view of the above-mentioned drawbacks, the present inventors have made active research and innovation to create a double-sided coating apparatus with high coating efficiency and a processing technique using the double-sided coating apparatus, so that the double-sided coating apparatus has industrial utility value.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide a double-sided coating device with high coating efficiency and a processing technology applying the double-sided coating device.

The double-sided coating equipment comprises front coating equipment and back coating equipment, wherein the front coating equipment comprises a first rack, a plurality of first guide rollers, a first coating roller and a plurality of second guide rollers which are sequentially distributed in the front coating direction of a base material are erected on the first rack, a glue groove used for wetting part of the first coating roller is arranged right below the first coating roller, a first scraper is fixed on one side of the first coating roller, the blade edge of the first scraper is in abutting joint with the outer surface of the first coating roller, the back coating equipment comprises a second rack, a first guide roller, a traction roller, a second guide roller and a second coating roller which are positioned below the base material are sequentially distributed in the back coating direction of the base material, a glue groove used for wetting part of the second coating roller is arranged right below the second coating roller, the second guide roll is arranged on one side of the second coating roll, a second scraper is fixed on the other side of the second coating roll, the blade of the second scraper is abutted and connected with the outer surface of the second coating roll, and the front coating device is located below the back coating device and is located on a middle roll between the front coating device and the back coating device.

As a further improvement of the present invention, the upper surface of the second coating roller is higher than the upper surface of the second guide roller.

As a further improvement of the present invention, the first guide roller is located on a side surface of the first frame.

As a further improvement of the present invention, the coating direction of the first coating roller and the doctor direction of the first blade coincide, and the coating direction of the second coating roller and the doctor direction of the second blade coincide.

A processing technology applying double-sided coating equipment comprises the following steps:

1) the base material is sequentially subjected to deviation correction and traction through an unreeling deviation correcting unit, a traction unit, a front coating unit, a back coating unit and a drying unit to enter front coating and back coating operation, and then drying operation is performed;

2) in the unreeling deviation rectifying unit, the substrate needs to be rectified before being subjected to front coating, so that the front uniform coating is convenient to carry out, the substrate is unreeled through a pair of guide rollers on the material guide frame after being sequentially rectified by two symmetrically-arranged deviation rectifying rollers, and the symmetrically-arranged deviation rectifying rollers can be used for efficiently rectifying the deviation of the substrate;

3) in the traction unit, the unreeling height of the base material passing through the discharging deviation rectifying unit is adjusted by sequentially passing the base material through a plurality of guide rollers arranged from top to bottom so as to adjust the height suitable for entering the front coating unit 17 to perform coating operation on the front surface of the base material;

4) in the front coating unit, a substrate sequentially passes through a plurality of first guide rollers, a first coating roller and a plurality of second guide rollers, a glue groove used for infiltrating the lower half part of the first coating roller is arranged under the first coating roller, a first scraper is fixed on the side surface of the first coating roller, the blade edge of the first scraper is abutted and connected with the outer surface of the first coating roller, the first scraper scrapes off redundant glue on the surface of the first coating roller before the first coating roller coats the front surface of the substrate, the back coating device is positioned above the front coating device, an intermediate roller is arranged between the front coating device and the back coating device, and the intermediate roller can transfer the substrate into the back coating unit 18 to receive back coating operation on the premise of not contacting the substrate coated on the front surface through intermediate transition of the intermediate roller;

5) in the back coating unit, a substrate sequentially passes through a first guide roll, a traction roll, a second guide roll and a second coating roll which are positioned below the substrate, a glue groove used for infiltrating the lower half part of the second coating roll is arranged under the second coating roll, a second guide roll is arranged on one side of the second coating roll, a second scraper is fixed on the other side of the second coating roll, the blade edge of the second scraper is abutted and connected with the outer surface of the second coating roll, and the second scraper scrapes off redundant glue expressed by the second coating roll before the second coating roll coats the back of the substrate;

6) in the drying unit, the base material subjected to double-sided coating by the front coating unit and the back coating unit is sent into a drying box for drying, and drying ovens in the drying unit are all non-contact air flotation drying ovens, so that non-contact drying operation can be performed on the base material.

As a further improvement of the invention, the substrate in the step 2) is subjected to deviation rectification by two symmetrically arranged deviation rectification rollers.

As a further improvement of the present invention, the height of the substrate unreeled by the pulling unit in the step 3) is lower than the height of the unreeling deviation correcting unit for unreeling the substrate.

As a further improvement of the present invention, the coating direction of the first coating roller to the front surface of the substrate in the step 4) is consistent with the glue scraping direction of the first doctor blade.

As a further improvement of the present invention, the coating direction of the second coating roller to the back surface of the substrate in the step 5) is consistent with the glue scraping direction of the second doctor blade.

As a further improvement of the present invention, the drying unit in step 6) includes a plurality of drying boxes arranged in a row.

By the scheme, the invention at least has the following advantages:

the coated substrate is sent from an unreeling, passes through a traction unit for tension control, reaches a front coating device for front coating, the front coating device can use the conventional coating mode in the industry, such as slit coating device, comma coating device, gravure coating device, micro-concave coating device and the like, the front coating device passes through the front coating device, the front of the substrate is coated once, the substrate after the primary coating reaches a back coating device, the substrate after the primary coating passes through the back coating device is subjected to tension control through a traction roller on the unit, the tension of the substrate and the speed of film running are stable, meanwhile, the glue groove is provided with glue needed to be coated, the bottoms of a first coating roller and a second coating roller are soaked in a coating glue groove and contacted with the glue, mesh holes with the same width as the coating width are engraved on the first coating roller and the second coating roller, and the engraving mesh number of the mesh holes controls the coating amount, the first coating roll and the second coating roll which are filled with the screen holes of the glue rotate reversely with the base material and pass through the scraper, the glue outside the screen holes is scraped off through the scraper, the glue carrying amount of the first coating roll and the second coating roll is stable, the first coating roll and the second coating roll which are stable in glue carrying amount have a certain burden angle with the base material, the angle is adjusted according to the coating condition, the glue is uniformly coated on the base material, the coating result is achieved, the base material which is coated is dried and cured through the non-contact air floatation drying oven, and the manufacturing of the process product is completed.

On the basis of the prior art, the front coating equipment can adopt slit coating, which is a coating technology that coating liquid is extruded out along a die slit and transferred onto a moving substrate under certain pressure, and the front coating equipment represents the future development direction of wet coating by the characteristics of high coating speed, good coating uniformity, wide coating window and the like. The slit coating has the advantages of high coating speed, good film thickness consistency, wide coating liquid viscosity range, few coating defects (closed-loop system), high coating liquid utilization rate and capability of simultaneously coating three layers. The disadvantages are high equipment cost; the requirement on the technical knowledge of operators is high; the installation and operation requirements are high; the coating head has high precision and high maintenance cost. SDC has a wide range of applications, from traditional jelly roll and paper to current solar and lithium ion batteries. For example: OLED conducting film, optical film of liquid crystal panel, solar cell backboard, lithium ion secondary battery, etc. Although the SDC technology is a mature technology, minor technological improvements for industrial production may play a significant role in cost reduction, resulting in great economic benefits. Therefore, the research on the SDC technology is significant.

On the basis of the prior art, comma coating installations are also possible for the front-side coating installation, which currently is the comma doctor commonly used in coating installations, first invented by the company patadam, germany, primarily for the precise metering of the coating quantities. The comma scraper is a knife edge formed by processing the surface of a round roller along a generatrix and is shaped like a comma. The use of a "comma blade" instead of a guillotine blade resulted in a smooth coating. Because the area of the rubber surface extruded is arranged in front of the cutting edge, once the rubber surface of the base material passes through the cutting edge, the pressure is suddenly released (the pressure is reduced to zero), although the rubber painting rebounds (the base material or the adhesive is an elastomer) and is not in contact with the 'comma scraper', the viscous trace coating work is eliminated, the comma scraper is fixed and does not rotate, the unfilled corner cutting edge of the scraper is opposite to the tangent point of a coating roller or a lining roller, the passing coating is scraped, and the coating is uniformly coated, the scraping uniformity of the coating mainly comprises the full run, the cylindricity and the edge straightness of the comma scraper, and the full run, the cylindricity and the edge straightness of the comma scraper can be generally ensured in the initial stage. In the design and development of coating composite equipment, a comma scraper is used as an important glue scraping device, and a glue scraping mode of the comma scraper is mainly suitable for a coating mode with large glue solution irregularity and large coating amount per unit area. The comma scraper adopts 45 steel, and through thermal refining, meticulous grinding excircle and milling gap form, guarantee the requirement of the straightness of scraper, the scraper can accomplish meticulous regulation with the differential screw, and the regulating variable can be directly shown by the amesdial on it. The lower part of the scraper is provided with a steel plate (or a back roll) with adjustable flatness as a base material supporting plate, and the supporting plate base (or the back roll base) can move rapidly by using an air cylinder so as to ensure that the joint when the base materials are lapped smoothly passes through.

According to the prior art, the front coating equipment can also adopt gravure coating equipment, a gravure roller is used, the surface of the gravure roller is arranged on a bearing, part of the gravure roller is immersed in a feeding plate, a rotating shaft carries the coating, and the coating liquid is taken away by a reverse moving base material after the coating liquid is quantified by a flexible rigid scraper, so that uniform thin-layer coating is realized.

According to the prior art, the front coating device can also adopt a micro-gravure coating device, the rotation direction of a micro-gravure coating gravure roller is opposite to the movement direction of the sheet base, and the coincidence means that the sheet base is pressed onto the gravure roller without using a back roller. If the running direction of the base is consistent with the direction of the gravure roller, the materials are separated, one part of the materials reach the base, and the other part of the materials stay on the gravure roller. The micro-gravure coating has the advantages that a very thin coating can be coated on a very thin material, the coating surface has no defects of offset printing, wrinkles and the like due to no back pressure roller, the scraper is in contact with the corrugated roller lightly, the abrasion of the scraper and the corrugated roller is small, the diameter of the micro-gravure roller is small, the weight is light, different coating amounts are coated, the micro-gravure roller is convenient to replace, smooth coating can be obtained by reverse coating, and the coating amounts are uniformly distributed. The micro-gravure coating is mainly applied to the fields of shading films, various optical films, materials for lithium batteries, various composite adhesive tapes, film films, protective films and the like.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

FIG. 1 is a schematic structural diagram of a front coating apparatus in a process applying a double-sided coating apparatus according to the present invention;

FIG. 2 is a schematic structural diagram of a back coating apparatus in a processing technology applying a double-sided coating apparatus according to the present invention;

FIG. 3 is a flow chart of a processing technique using a double-sided coating device according to the present invention.

Names in the drawings of the specification corresponding to respective numerical designations

1 base material

2 first frame

3 first material guiding roller

4 first coating roll

5 second material guiding roller

6 glue groove

7 first scraper

8 second frame

9 first guide roll

10 carry over pinch rolls

11 second guide roll

12 second coating roll

13 second scraper

14 intermediate roll

15 unreeling deviation rectifying unit

16 traction unit

17 front coating unit

18 back coating unit

19 drying unit

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Fig. 1 to 3 show a double-sided coating apparatus, which includes a front coating apparatus and a back coating apparatus, the front coating apparatus includes a first frame 2, the first frame 2 is provided with a plurality of first guide rollers 3, a first coating roller 4 and a plurality of second guide rollers 5 sequentially distributed in a front coating direction of a substrate 1, a glue tank 6 for wetting a portion of the first coating roller 4 is provided under the first coating roller 4, a first scraper 7 is fixed on one side of the first coating roller 4, a blade of the first scraper 7 is abutted and connected with an outer surface of the first coating roller 4, the back coating apparatus includes a second frame 8, the second frame 8 is provided with a first guide roller 9, a traction roller 10, a second guide roller 11 and a second coating roller 12 sequentially distributed in a back coating direction of the substrate 1, a glue groove 6 used for wetting a part of the second coating roller 12 is arranged right below the second coating roller 12, the second guide roller 11 is arranged on one side of the second coating roller 12, a second scraper 13 is fixed on the other side of the second coating roller 12, the blade of the second scraper 13 is abutted and connected with the outer surface of the second coating roller 12, and the front coating device is positioned below the back coating device and is positioned on a middle roller 14 between the front coating device and the back coating device.

The principle of the double-sided coating equipment provided by the invention is as follows:

the double-sided coating equipment comprises front coating equipment and back coating equipment, wherein the front coating equipment can adopt equipment such as slit coating equipment, comma coating equipment, gravure coating equipment, micro-concave coating equipment and the like to carry out front coating on a substrate 1, the front coating equipment comprises a first frame 2, a plurality of first guide rolls 3, a first coating roll 4 and a plurality of second guide rolls 5 which are sequentially distributed in the front coating direction of the substrate 1 are erected on the first frame 2, the substrate 1 sequentially passes through the plurality of first guide rolls 3, the first coating roll 4 and the plurality of second guide rolls 5, a glue groove 6 for wetting the lower half part of the first coating roll 4 is arranged right below the first coating roll 4, a first scraper 7 is fixed on the side surface of the first coating roll 4, the blade edge of the first scraper 7 is connected with the outer surface of the first coating roll 4, and before the first coating roll 4 abuts against the front surface of the substrate 1 to carry out coating, the first scraper 7 scrapes off redundant glue on the surface of the first coating roller 4, the back coating device is positioned above the front coating device, a middle roller 14 is arranged between the front coating device and the back coating device, the back coating device comprises a second frame 8, a first wire roller 9, a traction roller 10, a second guide roller 11 and a second coating roller 12 which are positioned below the substrate 1 are sequentially distributed on the frame in the back coating direction of the substrate 1, the substrate 1 sequentially passes through the first wire roller 9, the traction roller 10, the second guide roller 11 and the second coating roller 12 which are positioned below the substrate 1, a glue groove 6 for wetting the lower half part of the second coating roller 12 is arranged right below the second coating roller 12, the second guide roller 11 is arranged on one side of the second coating roller 12, a second scraper 13 is fixed on the other side of the second coating roller 12, and the blade of the second scraper 13 is abutted against the outer surface of the second coating roller 12, the second doctor blade 13 scrapes off the excess glue present on the second coating roll 12 before the second coating roll 12 coats the back side of the substrate 1.

As a further improvement of this embodiment, in order to sufficiently and completely coat the back surface of the substrate 1, the upper surface of the second coating roller 12 is higher than the upper surface of the second guide roller 11, so that sufficient tension can be ensured to coat the back surface of the substrate 1.

As a further improvement of this embodiment, the first wire guide roller 9 is located on the side surface of the first frame 2 in order to smoothly transfer the discharged substrate 1 to the front coating device for front coating operation.

As a further improvement of this embodiment, in order to scrape off the excess glue on the first coating roller 4 and the second coating roller 12, the glue applied to the front side or the back side of the substrate 1 is prevented from being excessive, the coating direction of the first coating roller 4 is consistent with the glue scraping direction of the first doctor blade 7, and the coating direction of the second coating roller 12 is consistent with the glue scraping direction of the second doctor blade 13.

1) the substrate is sequentially subjected to deviation correction and traction through an unreeling deviation correcting unit 15, a traction unit 16, a front coating unit 17, a back coating unit 18 and a drying unit 19 to enter front coating and back coating operation, and then drying operation is carried out;

2) in the unwinding deviation rectifying unit 15, the substrate needs to be rectified before being subjected to front coating, so that the front uniform coating is convenient to perform, the substrate is sequentially rectified by two symmetrically arranged deviation rectifying rollers and then is unwound by a pair of guide rollers on the material guide frame, and the symmetrically arranged deviation rectifying rollers can efficiently rectify the deviation of the substrate;

3) in the traction unit 16, the unreeling height of the base material passing through the discharging deviation rectifying unit is adjusted by sequentially passing the base material through a plurality of guide rollers arranged from top to bottom so as to adjust the height suitable for entering the front coating unit 17 to perform coating operation on the front surface of the base material;

4) in the front coating unit 17, the substrate sequentially passes through a plurality of first guide rollers, a first coating roller and a plurality of second guide rollers, a glue groove for wetting the lower half part of the first coating roller is arranged under the first coating roller, a first scraper is fixed on the side surface of the first coating roller, the blade edge of the first scraper is abutted and connected with the outer surface of the first coating roller, the first scraper scrapes off redundant glue on the surface of the first coating roller before the first coating roller coats the front surface of the substrate, the back coating device is positioned above the front coating device, an intermediate roller is arranged between the front coating device and the back coating device, and the intermediate roller can transfer the substrate to the back coating unit 18 to receive the back coating operation on the premise of not contacting the substrate coated on the front surface through the intermediate transition of the intermediate roller;

5) in the back coating unit 18, the substrate sequentially passes through a first guide roll, a traction roll, a second guide roll and a second coating roll which are positioned below the substrate, a glue groove used for wetting the lower half part of the second coating roll is arranged under the second coating roll, a second guide roll is arranged on one side of the second coating roll, a second scraper is fixed on the other side of the second coating roll, the blade edge of the second scraper is abutted and connected with the outer surface of the second coating roll, and the second scraper scrapes off redundant glue expressed by the second coating roll before the second coating roll coats the back of the substrate;

6) in the drying unit 19, the substrate subjected to double-sided coating by the front coating unit 17 and the back coating unit 18 is sent to a drying box for drying, and the drying boxes in the drying unit are all non-contact air flotation drying boxes, so that non-contact drying operation can be performed on the substrate.

In this embodiment, a processing technology using a double-sided coating apparatus includes the following steps:

2) in the unwinding deviation correcting unit 15, the substrate needs to be corrected before being subjected to front coating, so that the front uniform coating is convenient to perform, and the substrate is unwound through a pair of guide rollers on the material guide frame after sequentially passing through the deviation correcting rollers;

3) in the traction unit 16, the unreeling height of the base material after passing through the discharging deviation correcting unit is adjusted by sequentially passing through a plurality of guide rollers arranged from top to bottom, and the height of the base material unreeled by the traction unit 16 is lower than the height of the base material unreeled in the unreeling deviation correcting unit 15, so that the base material adjusted by the traction unit 16 is more suitable for front coating in the next front coating unit 17;

4) in the front coating unit 17, the base material passes through a plurality of first guide rollers, a first coating roller and a plurality of second guide rollers in sequence, a glue groove for wetting the lower half part of the first coating roller is arranged under the first coating roller, a first scraper is fixed on the side surface of the first coating roll, the blade of the first scraper is butted and connected with the outer surface of the first coating roll, before the first coating roller coats the front surface of the base material, the first scraper scrapes off redundant glue on the surface of the first coating roller, the coating direction of the first coating roller to the front surface of the base material is consistent with the glue scraping direction of the first scraper, the back surface coating device is positioned above the front surface coating device, an intermediate roller is arranged between the front surface coating device and the back surface coating device and can transit through the middle of the intermediate roller, feeding the substrate to the back coating unit 18 without contacting the substrate having the coated front surface to receive the back coating operation;

5) in the back coating unit 18, the substrate sequentially passes through a first guide roll, a traction roll, a second guide roll and a second coating roll which are positioned below the substrate, a glue groove used for wetting the lower half part of the second coating roll is arranged under the second coating roll, a second guide roll is arranged on one side of the second coating roll, a second scraper is fixed on the other side of the second coating roll, the blade edge of the second scraper is abutted and connected with the outer surface of the second coating roll, the second scraper scrapes off redundant glue expressed by the second coating roll before the second coating roll coats the back surface of the substrate, and the coating direction of the second coating roll to the back surface of the substrate is consistent with the glue scraping direction of the second scraper;

6) in the drying unit 19, the substrate subjected to double-sided coating by the front coating unit 17 and the back coating unit 18 is sent to a drying box for drying, the drying unit 19 comprises a plurality of drying boxes arranged in a row, and the drying boxes in the drying unit are all non-contact air flotation drying boxes and can be used for performing non-contact assembly line type drying operation on the substrate.

Fig. 1 is a front coating apparatus in the double-side coating apparatus according to the present invention, which can adopt slit coating based on the prior art, the slit coating is a coating technique that coating liquid is pressed out along a die gap and transferred onto a moving substrate under a certain pressure, and the coating technique represents the future development direction of wet coating due to its characteristics of fast coating speed, good coating uniformity, wide coating window, etc. The slit coating has the advantages of high coating speed, good film thickness consistency, wide coating liquid viscosity range, few coating defects (closed-loop system), high coating liquid utilization rate and capability of simultaneously coating three layers. The disadvantages are high equipment cost; the requirement on the technical knowledge of operators is high; the installation and operation requirements are high; the coating head has high precision and high maintenance cost. SDC has a wide range of applications, from traditional jelly roll and paper to current solar and lithium ion batteries. For example: OLED conducting film, optical film of liquid crystal panel, solar cell backboard, lithium ion secondary battery, etc. Although the SDC technology is a mature technology, minor technological improvements for industrial production may play a significant role in cost reduction, resulting in great economic benefits. Therefore, the research on the SDC technology is significant.

The double-sided coating equipment provided by the invention has the advantages that:

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. A two-sided coating equipment, includes front coating equipment and back coating equipment, its characterized in that: the front coating equipment comprises a first rack, a plurality of first guide rollers, a first coating roller and a plurality of second guide rollers are erected on the first rack and are sequentially distributed in the front coating direction of a substrate, a glue groove used for infiltrating part of the first coating roller is arranged under the first coating roller, a first scraper is fixed on one side of the first coating roller, the blade edge of the first scraper is abutted and connected with the outer surface of the first coating roller, the back coating equipment comprises a second rack, a first guide roller, a traction roller, a second guide roller and a second coating roller which are positioned under the substrate are sequentially distributed on the second rack in the back coating direction of the substrate, a glue groove used for infiltrating part of the second coating roller is arranged under the second coating roller, and the second guide roller is arranged on one side of the second coating roller, and a second scraper is fixed on the other side of the second coating roller, the blade of the second scraper is abutted and connected with the outer surface of the second coating roller, and the front coating device is positioned below the back coating device and is positioned on a middle roller between the front coating device and the back coating device.

2. The double-sided coating apparatus according to claim 1, characterized in that: the upper surface of the second coating roll is higher than the upper surface of the second guide roll.

3. The double-sided coating apparatus according to claim 1, characterized in that: the first guide roller is positioned on the side surface of the first machine frame.

4. The double-sided coating apparatus according to claim 1, characterized in that: the coating direction of the first coating roller is consistent with the glue scraping direction of the first scraper, and the coating direction of the second coating roller is consistent with the glue scraping direction of the second scraper.

5. A processing technology applying double-sided coating equipment comprises the following steps:

6. The processing technology of the double-sided coating equipment according to claim 5, wherein the processing technology comprises the following steps: the base material in the step 2) is subjected to deviation rectification through two symmetrically arranged deviation rectification rollers.

7. The processing technology of the double-sided coating equipment according to claim 5, wherein the processing technology comprises the following steps: the height of the substrate unreeled by the traction unit in the step 3) is lower than the height of the unreeling deviation correcting unit for unreeling the substrate.

8. The processing technology of the double-sided coating equipment according to claim 5, wherein the processing technology comprises the following steps: the coating direction of the first coating roller to the front surface of the base material in the step 4) is consistent with the glue scraping direction of the first scraper.

9. The processing technology of the double-sided coating equipment according to claim 5, wherein the processing technology comprises the following steps: the coating direction of the second coating roller to the back surface of the base material in the step 5) is consistent with the glue scraping direction of the second scraper.

10. The processing technology of the double-sided coating equipment according to claim 5, wherein the processing technology comprises the following steps: the drying unit in the step 6) comprises a plurality of drying boxes which are arranged in a row.