TR201617686A2 - Separator Thermal Lacquered Aluminum Flat Lid and Production Method - Google Patents

Abstract

The invention relates to the use of the printing surface (a), the primary lacquer (b), the aluminum foil (c), the copolymer adhesive (d), the multilayer (Co-Ex) film (e) and the improved thermal (f) non-embossed aluminum flat cover and the construction method. Coextrusion coating process instead of multilayer (Co-Ex) film (e) or application of separating thermal lacquer (f) on the surface applied thermally lacquer is also included in the invention.

Description

DESCRIPTION SEPARATE THERMAL LAXED UNEMBOSSED ALUMINUM FLAT COVER AND CONSTRUCTION METHOD Technical Area The subject of the invention is the negative effects of the embossing system on the print quality and the images. of the image printed in high quality with the printing machine, which eliminates the effects of non-embossed aluminum flat cover with separating thermal lacquer to protect its shine and It's about the method of making.

Background of the Invention Today, packaging and packaging techniques are also developed with the developing technology. is being renewed. Packaging, transportation, distribution, storage, sale and use of products as a coordinated system used to prepare is explained. Packaging technique, economic and environmental limitations of products storage, ease of storage and use under appropriate conditions. comfort is provided. In addition to this, there is an advanced packaging technique. It also increases the sales activities of the product.

Today, the effect of product packaging on the marketing and sales stages of that product is high. Special designs and graphics prepared for packaging, packaging material high printing with the most accurate and bright colors with a preferred printing method on quality is the most important factor that will increase the attractiveness of the products on the shelves. It is accepted.

One of the most used packaging materials in the packaging and packaging industry flexible packaging materials. Flexible packaging materials; aluminum thermal transfer and produced by multi-layer coextrusion coating method (Co-Ex Coating) laminated composite made of aluminum foil, plastic films and all kinds of paper in the packaging of food, medicine, cosmetics and industrial products consisting of structures It contains foils cut in the form of a cover used. Coextrusion coating Process (Co-Ex Coating) using one or more extrusion heads to granulate plastic raw materials in the form of melting at determined temperatures, foil, film and A barrier to these materials by coating them by pouring hot on the papers. or coating that aims to impart various properties such as thermal adhesion. is the method.

Foils in the current technique; By coextrusion (Co-EX) coating method advanced embossed aluminum foil structures, aluminum plastic foils developed with the film lamination method (Co-Ex Film Lamination) and Pre-cut embossed flat lids developed from aluminum thermal lacquer foils contains. These foils are used for plastic films, plastic film composite structures, papers, composite paper structures and all kinds of laminated aluminum foil structures covers. Pre-cut embossed flat produced from the aforementioned foil structures lids, yogurt, ayran, kefir, milk and similar products produced by food companies. It is used in the packaging of the products. These products are generally Pp, Ps, It is produced by filling in containers such as PE, PET, PVC, paper. In addition, these products To ensure that the product maintains its freshness after the products are filled into the containers. on behalf of these containers to act as a protective barrier layer and cover and ready to take its place on the shelves to be presented to the consumer. is brought.

Offset, flexo, rotogravure or digital printing on foil structures in the current technique After the application of the process, the foils, known as the embossing stage, are By passing through the embossing unit consisting of male cylinders, the entire surface of the foil is "Worm Wolf". With the embossed pattern application called "pattern", you can create an indented pattern. is brought. After this step, punch cutting process (Flat Cover Cut) The embossed foils are turned into flat covers and stacked on top of each other in the form of 1000 pieces. It is packaged as figs. These foils, known as embossed flat lids, are suitable for all kinds of produced from plastic raw materials, paper, cardboard, glass surfaces and many other materials. on pots and bowls with heat jaws in the temperature range of 100C°-300C° or It is bonded using conditioning/induction bonding systems.

The purpose of the embossing application in the current technique is the punching process (punching flat The lids, which were cut flat with The packages in the form of cartridges, which have been created, are delivered to end-user food companies. After being placed in the production packaging lines, it is removed from the chambers of the cartridges. While being taken one by one and placed on the containers, the lids must be placed on each other. It provides the necessary air space so that it does not stick and can be collected one by one.

During the embossing process applied to aluminum flat caps in the current technique The glossy and impressive printing surface becomes matte and this situation shortens the shelf life of the product. In addition, the aluminum developed with the embossing technique On flat covers, the brightness of the image to be printed is low by matting the surface. is happening.

Embossing applied to aluminum flat caps, which is the state of the art Another problem that arises in the process is the barcode, data matrix made on the cover. barcode devices of different known code applications made by printing or printing There are problems with reading. your current technique Another problem is the risk of puncturing the foil during the embossing process. is to be found.

Flat cover foils in the current technique are placed on the surface of the foil to be printed. on the other surface to be adhered to the primary lacquer application and the containers, the entire surface Water and solvent-based thermal lacquer application to cover the foil thermal bonding with coextrusion coating or coextrusion (Co-Ex) film laminated coated layer is developed by laminating. Then the foils, respectively, printing, It undergoes embossing and cutting processes.

The invention in question is a non-embossed aluminum flat cover with separator thermal wetting, ready-to-emboss It eliminates the negative effects of cutting flat cover foils. It was developed to remove. Invention, thermal lacquered aluminum foil, coextrusion thermal insulation of foils coated with Co-Ex film and aluminum foil structures with Co-Ex film lamination. surfaces that provide adhesion, at the printing stage, before the printing stage or then with the specially developed engraving cylinder that will not disturb the thermal adhesion. The surface is completely covered with partial dots, different patterns or company logos. Water-based, solvent-based or release thermal lacquer that is spread on the surface without coating based on its application. The available engraving methods are Laser, Hell, Acid and screening methods. With the said invention method, engraving process using different methods or different methods can be done.

The said invention, in the separating thermal lacquered non-embossed aluminum flat cover and method, Separating thermal lacquer application is not only for thermal lacquered aluminum foil structures. especially multilayer coextrusion coating process and aluminum Co-Ex film Thermal adhesion of aluminum composite structures developed by lamination method It is also applied on Co-Ex surfaces that provide As a result of this application applied on the thermal bonding surface of the foil with a release thermal lacquer application. with patterns, logos and circular dots on the floor and covering the entire floor, formed between the thermally lacquered, coextrusion coated or Co-Ex film laminated surface. height differences, air gap between covers without embossing By ensuring that the products are packed in 1000 cartridges on top of each other, Then it allows food companies to be easily separated from each other on the filling lines. it provides. Thus, the embossing process in the current technique has been eliminated. is happening.

The subject invention is a non-embossed aluminum flat cover and construction with separating thermal lacquer. method, deep screens and engraved using the conventional engraving driving system known with the aid of a chrome-plated cylinder on thermally lacquered, coextrusion coated or Co-Ex film laminated surface is being implemented. The separator subject to the invention will be used for the application of thermal The engraving cylinder is one of the standard engraving cylinders used in the printing process. processed using much deeper screens. The reason for this is the separator thermal However, it can be applied to the aluminum foil surface in the targeted amount and thickness. is to provide.

The invention is a glossy, non-embossed aluminum flat cover with separating thermal lacquer and its production method. smooth, non-matte, easy-to-read small font and barcode system It is intended to obtain a foil with a printing surface. at the same time the word With the invention in question, the disadvantages of the embossing process are eliminated. Moreover the invention is a non-embossed aluminum flat lid with separator thermal wetting, plastic containers It has been developed to be used to be pasted on.

The structural and characteristic features of the present invention and all its advantages are given below. It will be understood more clearly thanks to the figures given and the detailed explanation written. and therefore this assessment should also take into account these figures and the detailed explanation. must be made available.

Figures to Help Explain the Invention Figure 1: Separating thermal lacquer applied aluminum composite structure as a flat cover. view of the state before the cutting process Figure 2: Separating thermal lacquer with engraving technique on aluminum composite structure schematic view of the implementation Figure 3: Multi-layered logo printed on it with a separating thermal lacquer application (Co-Ex) film appearance References to Help Explain the Invention 3. Print surface b. primary lacquer c. Aluminium foil D. copolymer adhesive to. Multilayer (Co-Ex) film f. Separating thermal lacquer A. Printing press composite layer scraper blade engraving roller thermal lacquer container Disclosure of the Invention The invention is produced with separating thermal lacquer (f) dotted or in different forms after the printing stage. The separator lacquer system with patterns applied on both the separating thermal lacquer (f) as well as coated with multilayer coextrusion coating process or multilayer The separating thermal insulation material that can be applied on the laminated surface by coextrusion process. It relates to the lacquered (f) non-embossed aluminum flat lid and its method of construction.

The invention in question consists of printing surface (a), primer lacquer (b), aluminum foil (c), copolymer. adhesive (d), multi-layer (Co-Ex) film (e) and release thermal lacquer (f) elements was developed using

In this detailed description, the non-embossed aluminum flat cover with the separating thermal lacquer (f) and the construction method only for a better understanding of the subject and without limiting are explained in a way that has no effect.

The subject of the invention is a non-embossed aluminum flat cover with thermal lacquer (f) and its construction The steps of the method are as follows: Copolymer adhesive to aluminum foil (c) and multi-layer (Co-Ex) film (e) (d) or coextrusion coating process is applied, After the coextrusion coating process, the material is ready for the printing process. is brought, Aluminum formed by aluminum foil (c) and multi-layer (Co-Ex) film (e) primary lacquer (b) is applied on the composite structure, Water-based, solvent-borne coating on the aluminum composite structure applied with a primer lacquer (b). Printing is done with based or digital inks, Engraving cylinder (D) separator is prepared for thermal lacquer (f) application, Separating thermal lacquer (f) on the engraving cylinder (D) with dots or in different forms screens are processed for the purpose of applying patterns, Separating thermal lacquer on aluminum composite structure after printing process (f) Water-based or solvent-based separating thermal varnish in the separating thermal lacquer (f) reservoir (f) point or different forms of aluminum composite structure multilayer (Co- EX) is applied to the film (e) surface, Aluminum composite structure is passed through the drying unit with its final form, The aluminum composite structure passing through the drying unit is wrapped in rolls, Punching on the aluminum composite structure, which is then rolled up is applied.

Flat cover of aluminum composite structure with thermal lacquer (f) applied in Figure 1 as a view of the state before the cutting process. Printing process (a) The aluminum foil (c) surface is covered with primer lacquer (b) beforehand. Aluminum The multi-layer (Co- A release thermal lacquer (f) is applied on the Ex) film (e). Multilayer (Co-Ex) film (e) on a surface treated with coextrusion coating or thermal lacquer instead thermal release lacquer application is also within the scope of the invention.

In Figure 2, separating thermal lacquer with engraving technique on aluminum composite structure (f) There is a sematic view of the implementation. The composite in Figure 2 copolymer of layer (B), aluminum foil (c) and multi-layer (Co-Ex) film (e) laminated with adhesive (d) and patterned on it with a release thermal lacquer (f). resulting from its implementation. The separator in the thermal lacquer chamber (E) varnish (f) with scraper blade (C) cutting around the clockwise rotating engraving cylinder (D). surrounds. Counterclockwise printing presser (A) composite layer (B) squeezing and applying pressure. Separator located on the engraving cylinder (D) thermal lacquer (f) on the composite layer (B) with the help of the printing press (A). is being implemented. In the method of the invention, the engraving cylinder (D) is used for conventional engraving processing. using screening methods or a different method. applicable. In this application, according to the known lacquering screen depths, it is very deeper pores are opened and processed. The reason for this is the separator thermal, but (f) It is to provide a high amount of application in order to create a thickness.

In Figure 3, the logo (L) is printed on it with the separating thermal lacquer (f) application. The view of the layered (Co-Ex) film (e) is shown as an example. from the figure As it can be understood, with the said invention method, multilayer (Co-Ex) film (e) printing not only logo (L), but also dot circle or all kinds of patterns in different forms can be done.

The subject of the invention is the non-embossed aluminum flat cover with separating thermal lacquer (f) and its method of construction. and the separating thermal lacquer (f) does not completely cover the surface of the composite structure. It is applied to the surface in a partial way. In this way, it will be applied to the surface Patterns or logos (L) are in partial dotted or different forms. Promise The subject invention is a non-embossed aluminum flat cover with separating thermal lacquer (f) and its construction. method, the lids are separated from each other while placing them on the containers. makes it easy to separate. Thus, the embossing process in the current technique there is no need.

Technical and all other features mentioned in each request are followed by a reference number. These reference numbers are only to facilitate understanding of the prompts. have been used, so this reference is intended as an illustration of them. limit the scope of any of the elements indicated by numbers should not be considered.

The novelty, similar configurations of a person skilled in the art revealed in the invention. and/or use this configuration in the relevant technique. It is clear that it can be applied to other fields with similar purposes. So like this structuring is one of the criteria of innovation and especially overcoming the known state of the technique. It is obvious that it will be lacking. abcdef

Claims (2)

REQUESTS 1. The invention relates to a non-embossed aluminum flat cover with a separating thermal lacquer (f) and its construction method, and its feature is; It is characterized by the printing surface (a), primer lacquer (b), aluminum foil (C), copolymer adhesive (d), multi-layer (Co-Ex) film (e) and separating thermal lacquer (f) elements. 2. It is related to the separator thermal lacquered (f) non-embossed aluminum flat cover in accordance with claim 1 and its construction method, its feature is; The method is characterized by the following processing steps: Aluminum foil (c) and multilayer (Co-Ex) film (e) copolymer adhesive (d) or coextrusion coating process is applied, After the coextrusion coating process, the material is prepared for printing, Aluminum foil Primer lacquer (b) is applied on the aluminum composite structure formed with (c) and multi-layered (Co-Ex) film (e). , Engraving cylinder (D) is made ready for separating thermal lacquer (f) application, Screens with separating thermal lacquer (f) dots or different forms of patterns are processed on the engraving cylinder (D), Separating thermal lacquer on aluminum composite structure after printing process (f) Water-based or solvent-based separating thermal lacquer (f) in the separating thermal lacquer (f) reservoir (f) is applied on the surface of the aluminum composite structure multi-layer (Co-Ex) film (e) in point or different forms. , The aluminum composite structure is passed through the drying unit with its final form, the aluminum composite structure passing through the drying unit is rolled as a roll, then the punch process is applied to the aluminum composite structure, which is wrapped in rolls.