• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention refers to a process for the removal of adhesives and/or interlaminar inks in laminated plastic material that comprises the following steps: a) microperforation of the laminated plastic material with at least one microperforation per cm2 . b) removing the ink and/or adhesive by adding a washing solution to the microperforated plastic from step a), c) separation of the plastic material and the aqueous material. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2823926A1
    申请号:ES201930975
    申请日:2019-11-07
    公开日:2021-05-10
    发明作者:Font Andres Fullana
    申请人:Universidad de Alicante;
    IPC主号:
    专利说明:

    [0001] PROCEDURE FOR THE REMOVAL OF ADHESIVES AND / OR INTERLAMINARY INKS IN LAMINATED PLASTIC MATERIAL
    [0003] Field of the invention
    [0005] The present invention falls within the general field of chemical and environmental chemical engineering and, in particular, relates to a process for the removal of inks and adhesives present in laminated materials.
    [0007] Prior state of the art
    [0009] Plastic is one of the main materials used in the packaging of all types of products. In many cases, a single type of plastic by itself is not capable of meeting the characteristics demanded by the industry. In these cases it is necessary to use a combination of plastics glued together to form a multilayer composite material that in the industry is called laminate. Thus, for example, polyethylene is a good barrier for water, but permeates oxygen, while polystyrene terthalate (PET) is a good barrier for oxygen, although it permeates water, if the two materials are combined it can be obtain a composite plastic that protects from oxygen and water.
    [0011] Another use for laminates is as a barrier to printing pigments. When working with food it is important to ensure that the ink does not come into contact with the food. For this reason, it is printed on one of the plastic sheets and then another layer of the same plastic is added so that the ink remains in the interlaminar area, thus protecting the food from contact with the ink.
    [0013] These laminated materials, despite having numerous advantages, pose a great problem when it comes to being recycled. The difference in melting points between the polymeric materials that the laminates are made of prevents them from being reprocessed by extrusion. Therefore, prior to this step, it is necessary to detach the sheets (delaminate) and then separate the different polymers prior to recycling.
    [0015] There are different methods to produce the detachment of the different sheets of this type of materials, thus, for example, patent ES2535515T3, describes a method of delamination by mechanical / thermal separation, where the multilaminate plastic material is immersed in a solvent for a long time. period so that, by diffusion, it passes to the interlaminar area and when the solvent reaches this zone, the laminate is quickly heated so that, as the absorbed solvent evaporates, a great thrust force is generated that causes the sheets to be detached.
    [0017] Patent US4199109 describes a process in which the laminated material is heated to a temperature close to the softening of one of the component polymers of the laminate. Once the plastic is heated, it is thrown onto rollers that exert a high shear force that causes the sheets to be released.
    [0019] Patent US5183212 describes a process in which the laminate is crushed to a size of less than 1 cm and heated to the melting temperature of one of the plastics that make up the laminate. Subsequently, a large shear force is applied with agitation causing the sheets to peel off.
    [0021] Patent application EP1683829 describes a process for the removal of aluminum present in a layer of a laminated material by using bases or alkalis. The dissolution of the aluminum layer frees the plastic layer for recycling. To ensure reagent access to the aluminum layer, the laminate is ground to powder size.
    [0023] Patent application US5278282 describes the use of tetrahydrofuran (THF) to dissolve one of the sheets of the laminated material that can be styrene or PVC, in this way one of the components is separated from the other components. The dissolved plastic can be recovered later by evaporating the solvent.
    [0025] Patent ES2427019 describes a procedure for removing ink printed on plastic film, however, this procedure is not valid for laminated materials, since it is the plastic itself that prevents the reagents from accessing the interlaminar area where it is located. the adhesive, and the diffusion of the surfactants through the polymer is too slow for the process to take place.
    [0027] Therefore, there is a need to provide a procedure for the elimination of inks and adhesives in laminated materials, which is efficient, in such a way that it allows the recycling of plastic materials, as well as the rest of the materials that are part of the product and of the procedure such as plastics, water, or inks.
    [0029] Brief description of the invention
    [0030] The present invention solves the problems described in the state of the art since it provides a method for removing the adhesive that holds the sheets of plastic material together, and the subsequent removal of the ink.
    [0032] Thus, in a first aspect, the present invention refers to a process for the removal of adhesives and / or interlaminar inks in laminated plastic materials (hereinafter the process of the present invention) that comprises the following steps:
    [0033] a) microperforation of the laminated plastic material, preferably with at least 1-100 microperforations per cm2.
    [0035] b) removing the ink and / or adhesive by adding a washing solution to the microperforated plastic from step a),
    [0037] c) separation of the plastic material and the aqueous material.
    [0039] In a preferred embodiment, the microperforation of the laminated plastic material is carried out by means of microneedles, abrasive substances or laser. More preferably the microperforation of the laminated plastic material is carried out by means of microneedles in a microperforation device comprising at least one pair of double rollers configured so that both two rotate in opposite directions, and arranged in the lower part of a hopper. In such a way that the crushed laminated plastic material from the mill falls into the hopper and is forced to pass between the rollers due to its weight. The rollers have microneedles with a length greater than the total thickness of the laminate and distributed in a regular way between 1 to 100 per cm2. As the laminated plastic material passes between the rollers, the microneedles produce perforations in the material that allow access of the reagent to the interlaminar zone.
    [0041] Preferably, the process of the present invention comprises a stage prior to stage a), consisting of conditioning and grinding the laminated plastic material to be treated, where the laminated plastic material is ground into particles of a size preferably between 5-20 centimeters.
    [0043] In a preferred embodiment, the washing solution from step b) is selected from a solvent solution, an alkaline aqueous solution with at least one surfactant, acid solutions and / or mixtures thereof. Preferably, the wash solution is an aqueous alkaline solution with at least one cationic surfactant. Preferably, ammonia and acetic acid are also added.
    [0044] Preferably, step b) for removing ink and / or adhesive is carried out in a pressure reactor, under stirring and at a maximum temperature of 150 ° C.
    [0046] In a preferred embodiment, step c) of separation of the plastic material and aqueous material is carried out by means of a centrifuge, preferably for 3-10 seconds at 1000-3000 rpm.
    [0047] In a preferred embodiment, the process of the present invention comprises an additional stage, subsequent to stage c) consisting of treatment of the aqueous material, for the separation of the ink and / or adhesives and of the water. Preferably, the aqueous material treatment step is carried out by means of a clarifying centrifuge.
    [0049] In a preferred embodiment, the process of the present invention comprises an additional stage, subsequent to stage c) consisting of the separation of the plastic materials. Preferably, the stage of separation of the plastic materials is carried out by decantation in the wet phase or by using hydrocyclones.
    [0051] Description of the figures
    [0053] Figure 1 shows the general scheme of a laminated plastic material.
    [0055] Figure 2 shows the general scheme of a preferred embodiment of the present invention.
    [0057] Figure 3 shows the microperforation device.
    [0059] Detailed description of the invention
    [0061] As shown in figure 1, a laminated plastic material comprises at least two layers of plastic material (1), and an interlaminar zone (2) sandwiched between the two layers of plastic material (1).
    [0063] Laminated plastic material can be presented in different forms: leftover rolls from the packaging industry or finished containers with defects or from the landfill. All this material is selected, removing large impurities and placed on a conveyor belt. To improve the process of the present invention, the laminated plastic material is subjected to an optional crushing stage, for this, the material is crushed in a specific mill (4) for plastic film until obtaining particles of size between 5 and 20 cm.
    [0064] Once crushed, this material is subjected to a microperforation, in this way, the access of the reagents to the interlaminar area (2) is facilitated, where the ink and the adhesive to be removed are located. There are various techniques for performing microperforations, such as the use of microneedles, abrasives or lasers. Preferably it is recommended to use the microneedle technique.
    [0066] In the present invention, the microperforation step was carried out in a microperforation device (5), as shown in figure 3.
    [0068] This device comprises a pair of double rollers (11) configured so that both two rotate in opposite directions, and arranged in the lower part of a hopper (10). In such a way, that the crushed laminated plastic material, coming from the mill (4) falls into the hopper (10) and due to its weight it is forced to pass between the rollers (11). The rollers (11) have microneedles (12) of a length greater than the total thickness of the laminate and regularly distributed between 1 to 100 per cm2. As the laminated plastic material passes between the rollers (11), the microneedles (12) produce perforations in the material that will allow access of the reagent to the interlaminar zone (2).
    [0070] The microperforated laminated plastic material is introduced into a stirred reactor (6), which comprises the washing solution, in such a way that the chemical agents contained in the washing solution can access the interlaminar zone (2) of the material. laminated plastic and remove ink and adhesive.
    [0072] As the washing solution, any solvent can be used, in the present invention, preferably an alkaline aqueous solution with surfactant agents was used. Surfactants can be cationic, ammonic or non-ionic, in the present invention cationic surfactants were used. In a preferred embodiment, ammonia and / or acetic acid were added to the wash solution, verifying that these two compounds, although not necessary, improve the efficiency of the process.
    [0074] The conditions of the washing stage depend on the adhesive that the plastic laminar material comprises, in such a way that this stage can be carried out at room temperature, when the adhesive is weak, or in the case of stronger adhesives, an increase is required. of the temperature in the reactor, however, in the case of working at temperatures higher than the boiling temperature of the reagent, it would be necessary to use an autoclave reactor that works under pressure to avoid evaporation of the reagent. In any case, the temperature cannot exceed 150 ° C.
    [0075] After the washing step, the plastic material together with the washing solution was introduced into a centrifuge (7) to separate the plastic material from the aqueous solution, which contains the water together with the remains of ink and adhesive. To separate both phases, as is well known to a person skilled in the art, there are different techniques, however, in the present invention, the material from the washing stage was subjected to centrifugation in such a way that, in addition to separating both phases, With the high shear forces produced, the separation of the sheets and with it the elimination of adhesive was favored.
    [0077] In this way, on the one hand, the delaminated plastic material without ink or adhesive is achieved, and on the other hand, the water with the remains of the washing solution together with the ink and the adhesive.
    [0079] Optionally, the procedure can comprise stages to complete the recycling of all the materials, for this, a water treatment stage was carried out, in a clarifying centrifuge (8) that separated the adhesive particles in the form of sludge and recycled the water. to the main reactor. In this way, in addition to recovering the water, the reagents are recovered, reducing operating costs. To help clean the water, flocculating and / or coagulating agents were added prior to centrifugation.
    [0081] On the other hand, the delaminated plastic material was recycled. In the event that the initial laminated plastic material is formed by sheets of plastic material of a different nature, for recycling to be optimal, it must undergo a separation prior to processing, this separation can be carried out by decantation in the wet phase based on in the difference in density between different plastics, or by using hydrocyclones. In this case, since it was a laminated plastic material composed of PET and HPDE, a decanter (9) was used with water, so that the PET remained at the bottom while the HDPE floated, thus separating these two plastics.
    权利要求:
    Claims (15)
    [1]
    1. Procedure for the elimination of adhesives and / or interlaminar inks in laminated plastic material that comprises the following steps:
    a) microperforation of the laminated plastic material with at least one microperforation per cm2.
    b) removing the ink and / or adhesive by adding a washing solution to the microperforated plastic from step a),
    c) separation of the plastic material and the aqueous material.
    [2]
    2. Method according to claim 1, wherein the microperforation is carried out by means of microneedles, abrasive substances or laser.
    [3]
    3. Process according to any of claims 1-2, wherein in step a) between 1-100 microperforations per cm2 are made.
    [4]
    4. Process according to any of claims 1-3, comprising a stage prior to stage a) of conditioning and grinding the laminated plastic material to be treated.
    [5]
    5. Process according to any of the preceding claims, wherein the washing solution from step b) is selected from among solvent solution, alkaline aqueous solution with at least one surfactant, acid solutions and / or mixtures thereof.
    [6]
    6. Process according to any of the preceding claims, wherein ammonia and / or acetic acid are added to the washing solution.
    [7]
    7. Process according to any of the preceding claims, wherein step b) for removing ink and / or adhesive is carried out in a pressure reactor, under stirring and at a maximum temperature of 150 ° C.
    [8]
    8. Process according to any of claims 1-7, wherein step b) of removing ink and / or adhesive is carried out in a pressure autoclave at a maximum temperature of 150 ° C.
    [9]
    9. Process according to any of the preceding claims, wherein step c) separating the plastic material and aqueous material is carried out by means of a centrifuge, for 3 seconds at 1000-3000 rpm.
    [10]
    10. Process according to any of the preceding claims, comprising an additional stage subsequent to stage c) consisting of treating the aqueous material, for separating the ink and / or adhesives from the water.
    [11]
    11. Process according to claim 10, wherein the aqueous material treatment step is carried out by means of a clarifying centrifuge.
    [12]
    12. Process according to any of the preceding claims, comprising an additional stage subsequent to stage c) consisting of separating the plastic materials.
    [13]
    13. Process according to claim 12, wherein the stage of separation of the plastic materials is carried out by decantation in the wet phase or by using hydrocyclones.
    [14]
    14. Microperforation device (5) for laminated plastic material, characterized in that it comprises:
    - a hopper (10) to receive the laminated plastic material superiorly,
    - a pair of double rollers (11), rotating in opposite directions, and arranged in the lower part of the hopper (10), to receive by gravity the laminated plastic material from the hopper,
    - microneedles (12) located on the rollers (11) to pierce the laminated plastic material when it passes between the rollers (11).
    [15]
    15. Microperforation device (5) for laminated plastic material according to claim 14, wherein the microneedles (12) have a length that is greater than the thickness of the laminated plastic material.
    类似技术:
    公开号 | 公开日 | 专利标题
    ES2886765T3|2021-12-20|Linerless washable label, apparatus and method for preparing a label
    DK2668226T3|2017-03-13|Separation medium, method and plant for separating multilayer systems
    WO2013144400A1|2013-10-03|Method for removing ink printed on plastic films
    EP3554834B1|2021-11-10|Method and apparatus for recycling packaging material
    GB2525858A|2015-11-11|Method and apparatus for recycling packaging material
    EP0589672B1|1997-03-05|Method and apparatus for separation and recovery of the components from foil-containing laminates
    JP2014019003A|2014-02-03|Composite material separation and recovery method
    ES2823926B2|2021-10-15|PROCEDURE FOR THE ELIMINATION OF ADHESIVES AND / OR INTERLAMINARY INKS IN LAMINATED PLASTIC MATERIAL
    WO2004065029A1|2004-08-05|Paper sheet-bonded ic tag separation recovery method and separation recovery system, and separation recovery device
    AR012084A1|2000-09-27|LAMINATED MATERIAL COMPOSED OF FILM AND FABRIC, LAMINATION PROCESS TO PREPARE IT, AIR BAG STRUCTURE, METHOD TO MAKE THE AIR BAG STRUCTURE, METHOD OF SEPARATE METHODS AND TO RECOVER THE COMPONENTS OF THE LATERIAL MATERIAL
    WO2020059516A1|2020-03-26|Method for separating and recovering layered film
    CA2431489C|2008-12-23|A process of de-lamination of multi-layer laminated packaging industrial refuse
    WO2012074371A1|2012-06-07|Recycling of plastic laminates
    CN109641373B|2021-05-07|Separation of polymers from composite structures
    TW202206524A|2022-02-16|Separation and recovery method and separation and recovery device
    CN101475702B|2011-04-13|Method for fast stripping plastic-aluminum composite material by force chemistry
    GB2525859A|2015-11-11|Method and apparatus for recycling laminated glass
    WO2021235488A1|2021-11-25|Separation and recovery method and separation and recovery apparatus
    KR101536259B1|2015-07-13|Label for adhering to plastic container
    WO2021230033A1|2021-11-18|Recycling system for recycling plastic laminate into recycled materials, recycling method, and laminate separation and recovery method
    JP2002292630A|2002-10-09|Method and apparatus for separation and recovery of pet bottle
    TWI226052B|2005-01-01|Method to decompose the optical recording medium under auxiliary of using electric arc
    JP2002301456A|2002-10-15|Plastic composite panel
    KR19990028517A|1999-04-15|Method for recovering active substance from insoluble or discarded device for active substance transdermal application and / or treatment waste thereof
    TW202140268A|2021-11-01|Transfer products and methods for recovering transfer products
    同族专利:
    公开号 | 公开日
    WO2021089895A1|2021-05-14|
    ES2823926B2|2021-10-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3054148A|1951-12-06|1962-09-18|Zimmerli William Frederick|Process of producing a perforated thermoplastic sheet|
    US3546742A|1968-03-27|1970-12-15|Emanuel Kugler|Apparatus for perforating thermoplastic film|
    US4535020A|1982-07-26|1985-08-13|Ethyl Corporation|Perforated film|
    EP2832459A1|2012-03-26|2015-02-04|Universidad De Alicante|Method for removing ink printed on plastic films|
    法律状态:
    2021-05-10| BA2A| Patent application published|Ref document number: 2823926 Country of ref document: ES Kind code of ref document: A1 Effective date: 20210510 |
    2021-10-15| FG2A| Definitive protection|Ref document number: 2823926 Country of ref document: ES Kind code of ref document: B2 Effective date: 20211015 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201930975A|ES2823926B2|2019-11-07|2019-11-07|PROCEDURE FOR THE ELIMINATION OF ADHESIVES AND / OR INTERLAMINARY INKS IN LAMINATED PLASTIC MATERIAL|ES201930975A| ES2823926B2|2019-11-07|2019-11-07|PROCEDURE FOR THE ELIMINATION OF ADHESIVES AND / OR INTERLAMINARY INKS IN LAMINATED PLASTIC MATERIAL|
    PCT/ES2020/070655| WO2021089895A1|2019-11-07|2020-10-27|Method for removing adhesives and/or interlaminar inks on laminated plastic material|
    [返回顶部]