Method and apparatus to produce paper webs coated on both sides

Abstract

A method of producing paper webs coated on both sides includes the following steps: a) indirectly applying a liquid onto the paper web by passing the web through at least one nip formed by a roll and a counterelement, whereafter the web is dried; b) next, directly applying coating mixture at surplus only on one side of the web, whereafter the surplus coating mixture is removed again by use of a doctor element, the web being dried again thereafter; and c) lastly, directly applying coating mixture at surplus only on the other web side, whereafter the surplus coating mixture is removed by use of a doctor, whereafter the web is dried again. In the indirect application of liquid in the nip, or in the nips, either coating mixture to produce so-called MWC papers or a sizing suspension to produce so-called LWC papers is selectively applied.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a method of producing paper webs coated on both sides and to an apparatus for the application of such method.

2. Description of the Related Art

More exactly, the present invention concerns a so-called multiple coating method in which a liquid medium is applied twice, successively on each paper side. Such multiple coating method is known from the magazine “Wochenblatt für Papierfabrikation” No. 11/12, 1974, pages 339 through 400; refer specifically to FIG. 4 on page 396. Illustrated there are four coaters of essentially the same structure. In each of the coaters, the paper web runs over a backing roll, with liquid medium being applied directly onto the paper web. Known from FIG. 1 of the same publication, however, is also the following: A precoat can first be applied indirectly onto each paper side, followed by a top coating applied by a direct method. Refer to “Wochenblatt für Papierfabrikation” No. 10, 1955, pages 436 through 443, notably FIG. 15.

SUMMARY OF THE INVENTION

Underlying the present invention, based on this prior art, is the improvement of the known multiple coating method and the apparatus provided for it, to the effect that several differently coated paper grades can be produced without appreciable modification of the machine. The present invention provides the ability to selectively produce so-called MWC (medium-weight catalog) paper or so-called LWC (lightweight catalog) paper. Understood as MWC and LWC papers are medium-weight and lightweight coated papers, respectively.

The present invention uses one or two initially provided applicators, with which liquid medium is applied indirectly onto the paper web, to apply, in the production of MWC paper, a so-called contour coating of pigmented coating color simultaneously or successively onto both paper sides. Alternatively, in the production of LWC paper, only one, preferably very thin, sizing suspension layer is applied simultaneously or successively onto both paper sides.

Hence, in the production of MWC papers, each web side is coated twice overall with coating mixture. In contrast, in the production of LWC papers, the indirectly applied sizing suspension forms on each web side a barrier layer between the raw paper web and the directly applied coating mixture.

Advantages of the present invention include, in the production of MWC paper, a considerably improved opacity as compared to the prior art, achieved with the aid of the applicator(s). In the production of LWC papers, the first two coaters, in contrast, make possible the use of a raw paper that is thinner than before. Also, a raw paper having a considerably lower coating weight, with the application of the sizing barrier layer, is able to have a top coating applied. The reason for this is that there is little or no penetration of the coating mixture into the inside of the raw paper. Therefore, a surface of high uniformity (better cover) is achieved, despite the low coating weight.

The metering device of the applicator(s) working indirectly may feature as a metering element a blade, a smooth roll doctor or a grooved roll doctor. The applicator of the coaters working directly may be configured as a roll applicator, a pressure chamber applicator (SDTA—short dwell time applicator), or as an open-jet applicator. The dryer units feature top-felted single-felt cylinder groups, since this configuration most easily allows a quick removal of broken parts, which is important for on-line operation.

BRIEF DESCRIPTION OF THE DRAWINGS

The above-mentioned and other features and advantages of this invention, and the manner of attaining them, will become more apparent and the invention will be better understood by reference to the following description of embodiments of the invention taken in conjunction with the accompanying drawings, wherein:

FIG. 1 is a schematic view of one embodiment of an apparatus of the present invention; and

FIG. 2 is a schematic view of another embodiment of an apparatus of the present invention.

Corresponding reference characters indicate corresponding parts throughout the several views. The exemplifications set out herein illustrate one preferred embodiment of the invention, in one form, and such exemplifications are not to be construed as limiting the scope of the invention in any manner.

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1 , the following units are provided, among others: A first applicator unit A 1 for indirect operation, a second applicator A 2 working indirectly, a first coater S 1 working directly, and a second coater S 2 for direct application. Associated with each of the coaters and applicators are following infrared dryers 28 and hot-air dryers 18 . Contact dryers 39 are configured as top-felted single-felt cylinder groups, allowing easy downward removal of any accruing scrap paper.

Coaters S 1 and S 2 each have an open-jet applicator 40 and a blade metering device 41 . A possibly preceding smoothing unit and the always following smoothing and winding systems are not illustrated.

Coming from a not-illustrated paper machine, a paper web 1 runs over web-carrying rolls 2 through 7 into first applicator unit A 1 . The latter includes an applicator roll 10 , backing roll 11 and an applicator 13 . Web 1 proceeds obliquely upwardly through applicator unit A 1 to a further web-carrying roll 12 which reverses web 1 upward in a substantially vertical direction. Web 1 passes an infrared dryer 28 and then continues through a hot-air dryer 18 , carried by use of further web-carrying rolls 16 , 17 and 19 .

The latter web-carrying roll 19 is followed by a draw press Z, from which paper web 1 , passing a cutter S, enters from below into a top-felted single-felt dryer group 39 , including, e.g., two to five dryer cylinders 31 through 33 . An endless felt, which can be fashioned as a porous drying wire, forces paper web 1 onto dryer cylinders 31 - 33 and passes it between the cylinders over reversing rolls, which can be suction rolls.

Following dryer group 39 is the second applicator unit A 2 , working indirectly, which is arranged in mirror-inverted fashion in relation to the first applicator unit A 1 , but is otherwise configured the same. From here, paper web 1 proceeds upward via web-carrying rolls 26 and 27 , again passing an infrared dryer 28 . Following roll 27 is a noncontact reversing system 29 , a further web-carrying roll 30 , a hot-air dryer 18 , a further web-carrying roll 19 and a second contact dryer 39 , which may be configured exactly the same as the one described above.

Following the second contact dryer 39 is first coater S 1 , working directly, to which paper web 1 is again carried via web-carrying rolls 2 through 7 . In coater S 1 , paper web 1 wraps the bottom area of a roll 8 . Coater S 1 includes the previously mentioned open-jet applicator 40 and blade metering device 41 . Following again now, in an arrangement the same as that after first applicator unit A 1 , are infrared dryer 28 , hot-air dryer 18 and contact dryer 39 , followed by the second direct-working coater S 2 , having a mirror-inverted arrangement relative to S 1 . The devices following coater S 2 again exactly match those following second applicator unit A 2 .

The two applicator units A 1 and A 2 illustrated in FIG. 1 may be replaced, according to FIG. 2 , by a single applicator unit A whose rolls 10 and 11 are arranged exactly as in applicator unit A 2 in FIG. 1 . Again associated with bottom roll 10 is an applicator 13 . Additionally, an applicator 13 ′ is arranged on top roll 11 . The special features of additional applicator 13 ′ are known from German Patent Document No. DE 4 413 232 A1. Applicator A is followed by the same units as applicator A 2 in FIG. 1 .

As to the applicators 13 , reference is made to German Patent Document No. DE 4 414 949 A1. With respect to contact dryer 39 , reference is made to German Patent Document No. DE 295 0 637 U.

While this invention has been described as having a preferred design, the present invention can be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains and which fall within the limits of the appended claims.

Claims

1. An apparatus for selectively coating medium weight coated (MWC) paper webs and lightweight coated (LWC) paper webs with one of a contoured coating of pigmented coating color and a thin layer of sizing suspension, the paper webs each having a first side, a second side, and a direction of travel, said apparatus comprising:at least one applicator assembly including a nip configured to receive selectively both the MWC and LWC paper webs, said at least one applicator assembly being configured for selective indirect application of one of a contoured coating of pigmented coating color and a thin layer of sizing suspension onto the paper web in said nip, said applicator assembly being configured for applying said contoured coating in the production of said MWC paper and being configured for applying said thin layer of sizing suspension in the production of said LWC paper, each said nip being defined by an applicator roll and a counter element, and a coating applicator in fluid communication with said applicator roll; at least one first drying unit associated with and disposed after said at least one applicator assembly relative to the direction of travel of the paper web; a first coater configured for direct coating of the first side of the paper web, said first coater being disposed after said at least one first drying unit relative to the direction of travel of the paper web; a second drying unit associated with and disposed after said first coater relative to the direction of travel of the paper web; a second coater configured for direct coating of the second side of the paper web, said second coater being disposed after said second drying unit relative to the direction of travel of the paper web; and a third drying unit associated with and disposed after said second coater relative to the direction of travel of the paper web.

2. The apparatus of claim 1, wherein said at least one applicator assembly comprises one applicator assembly, said one applicator assembly being configured for simultaneous indirect application of one of a contoured coating of pigmented coating color and a thin layer of sizing suspension onto the first side and the second side of the MWC and LWC paper webs, respectively.

3. The apparatus of claim 1, wherein said at least one applicator assembly comprises a first applicator assembly and a second applicator assembly, said first applicator assembly being configured for indirect application of one of a contoured coating of pigmented coating color and a thin layer of sizing suspension onto the first side of the paper web, said second applicator assembly being configured for indirect application of one of a contoured coating of pigmented coating color and a thin layer of sizing suspension onto the second side of the paper web.

4. The apparatus of claim 1, wherein said at least one applicator assembly includes:at least one applicator roll configured for contacting the paper web, each said applicator roll having a periphery, each said periphery having a portion separated from the paper web; and at least one applicator having a metering device, each said applicator being associated with a respective said portion of a respective said periphery.

5. The apparatus of claim 4, wherein each said metering device includes a roll doctor associated with a respective said portion of a respective said periphery, each said roll doctor having peripheral grooving.

6. The apparatus of claim 1, wherein each of said first coater and said second coater includes:a backing roll configured for carrying the paper web; an open-jet applicator associated with said backing roll; and a metering device associated with said backing roll, said metering device being disposed after said open-jet applicator relative to the direction of travel of the paper web, said metering device having a coating blade extending toward said backing roll.

7. The apparatus of claim 1, wherein each of said first coater and said second coater includes:a pressure chamber applicator configured for direct coating of the paper web; an overflow bar bounding said pressure chamber; and a metering device bounding said pressure chamber and disposed opposite said overflow bar.

8. The apparatus of claim 1, wherein said apparatus is on-line within a paper machine, and wherein each of said at least one first drying unit, said second drying unit and said third drying unit includes:a top-felted single-felt cylinder group.