TR201708733T4 - A method for producing a molded fiber package and a molded fiber food package. - Google Patents

Abstract

The invention relates to a process for producing a molded fiber package, in particular a food package, in particular an egg package, comprising: providing fiber pulp contained in a pulp container for a molding process; characterized in that the lignocellulosic biomass contains 0 to 2% of dry weight protein.

Description

DESCRIPTION A PACK OF MOLDED FIBER AND PACK OF MOLDED FIBER FOOD METHOD FOR PRODUCTION Infrastructure The present invention relates to the use of a molded fiber package, in particular a food package, in particular a relates to a method for producing the egg pack.

Such a method is known, for example, from DE-A-19618554.

In many modern food retail establishments, for example supermarkets and hardware Various products such as fruit, meat, eggs and similar products are available in many types and sizes in their shops. presented and displayed to the individual customer in containers, said containers made of pulp paper is produced. The color or appearance of such containers, eg egg cups, is usually grayish and therefore attractive or aesthetically appealing to the individual customer is not.

In addition, fiber packaging materials, such as egg boxes and fiber cups, are often color-coded. in terms of uniformity. However, such fiber packaging materials are less expensive for the customer. it is attractive. The package as a whole can be differentiated by applying labeling and/or printing techniques. Although it can be equipped with colors, such techniques are generally very expensive. Conclusion As a result, it is aimed to produce fiber packaging materials that are more interesting in the art. A cheap and easy process is needed.

At the same time, packaging materials for electronic devices, for example, white colored expanded polystyrene, which is difficult to recycle and is harmful to the environment. includes less attractive materials such as similar synthetic materials. water, especially pulp paper for food products such as fruit that is more attractive to the individual customer long established to provide colorful or attractive packaging materials that last there is a need. However, such colorful packaging based on pulp paper materials, for example the coloring agent used, do not leach into the food product. and it must comply with more serious food regulations, such as not spoiling it.

Substances based on pulp paper are produced in a pulp molding process, pulp molding machines are used here. Basic principles of production, back reclaimed paper (including newspapers, magazines) or repulped paper is to provide their heaps. In this context, the relevant regulation on recycled paper, for example EN 643. Subsequently, various chemicals can be added to the pulp. For example, to impart water resistance, age resistance and/or color to finished products. chemicals are added. From wastes such as paper pulp, staples, sand and plastic particles cleaned and transferred to the molding machine. Machine's molding dies, paper is dipped into the dough and a vacuum is applied to the mold, thus producing a product. is created. The wet product is placed on a conveyor belt and sent to the drying tunnel.

Finally, the dried products can be pressed, counted, packed, printed, can be labeled, stacked on pallets and sent to the end user. For example, US Brief Description of the Invention The invention is that the method allows to obtain a package in a more environmentally friendly way, for the production of a molded fiber food package, in particular an egg package. It aims to provide a method. The invention also includes fruit and vegetable packages, clearly useful for cup holders and industrial buffering vehicles will be.

However, another purpose of the invention is to change the appearance during display and/or use. is to provide a food package that is more appealing to the customer.

According to the invention, it is a molded fiber package, in particular a food package, in particular a by a method for producing the egg pack comprising the following elements: it happens, - providing a fiber pulp for a molding process, fiber The pulp is contained in a pulp container, the method includes, . Ignocellulosic biomass in the range of 5-80%, preferably in the range of 5-60% adding Ignocellulosic biomass not derived from wood to its container, wherein the lignocellulosic biomass contains 0 to 2% protein by dry weight.

Ignocellulosic biomass containing 0 to 2% protein by dry weight is competitive in the market. apply an economical method to obtain packages that can it provides. According to the current invention, when used in the molded fiber process, more ordinary grass containing protein, which causes slow production and/or high production costs. suffer from poor drainage, long drying times, and/or high energy consumption. remains. High Ignocellulosic biomass content not derived from wood, here so that an ordinary paper pulp obtained from paper, that is, wood There is a relationship between the raw material flow and the lignocellulosic biomass obtained from wood. selection can be made. At the same time, the production press is much more efficient. Moreover, The high content Ignocellulosic biomass not derived from wood provides a “green” looking biomass. Allows package delivery. In addition, the obtained method according to the invention The packs performed surprisingly well in the known pressure tests for egg packs. shows performance. Ignocellulosic biomass not derived from wood, wood-based This was not expected as it is less durable than fibres. obtained from wood approximately 50% of the lignocellulosic biomass that is not it turns out that it provides the effect of the invention without making too many concessions. Thus, 5-80% Ignocellulosic non-wood-derived biomass added to wood-based fiber pulp biomass in an environmentally friendly way without compromising too much on package durability. It enables the production of a molded fiber food package. Also, fiber dough mixture The use of lignocellulosic biomass, which is not obtained from wood, as a raw material for it aims to be less independent from wood fibres. Paper, paper in the future This is necessary when it becomes less available causing its price to rise.

Lignocellulosic biomass, from grass, leaves of tomato plants. tomatoes It is obtained from the roots of plants and/or rapeseed sap. Grass in general, food controlled in such a way that the regulation on contact obtained by agriculture. More preferably, this controlled agriculture reduces fertilization. not included. Other, such as roadside lawns for non-food packages the use of grass is reasonable. Grass fibers containing other grass-like plants of the invention It will be understood that he is not angry with. Wood such as cane fibers, sugar beet residues It is possible that other natural fibers other than those will be used in the invention.

The method is performed before adding the Ignocellulosic biomass to the pulp container. Ignocellulosic protein, such that the biomass contains 0 to 2% protein by dry weight. It involves the processing of Ignocellulosic biomass to remove it from the biomass.

Such a process for the removal of protein from the lignocellulosic biomass protein removal, such that a choice can be made between raw material flows Allows optimization of processes. In the technical field of molded fiber packaging, dough container is also referred to as “thin stock tank”.

In one embodiment, the method includes pretreatment of the lignocellulosic biomass, pretreatment, It involves soaking in water for the entire time. Here, the pre-processing is into the dough container. It means.

In one embodiment of the method, pre-processing visible Ignocellulosic biomass fibers are visible, which has such a length that the fibers can rise to the surface of the pulp mix involves cutting Ignocellulosic biomass first, visible Ignocellulosic biomass fibers preferably shorter than 5 cm on average, preferably less than 2 cm, more preferred It has a length between 1.5 and 2 cm as indicated.

Visible, which has such a length that it can remain on the surface of the fiber pulp mixture a package is placed on its surface during These long fibers are then placed on the package. becomes visible and can be distinguished by touch. This is an improved view of the food package it provides. In this context, the visible expression of the fiber can be seen with the naked eye without any assistance. It means it can be seen. Therefore, the fiber is referred to fibers at the cellulose level. It will be understood that he did not. Instead, here is a fiber, biomass level and typical It has a width between 0.1 mm and 2 mm.

In one embodiment of the method, the pretreatment is visible with the fiber dough in the dough mix. It is a well-known process in the pulp processing industry. Interaction, both mechanical and due to a chemical component, increasing the bonding surface between the fibers development of a mechanical component and, for example, the formation of hydrogen bridges because it has a chemical component. This treatment means that the package produced in this way seen as important in terms of durability.

In one embodiment of the method, the pretreatment is first applied to the fiber in the pulp mix. to facilitate the interaction between the pulp and the visible lignocellulosic biomass fiber. and secondly, the pulp of some of the visible lignocellulosic biomass fibers Visible Ignocellulosic biomass to cause the mixture to rise to the surface includes adjusting the degree of growth of the fibers. Due to adjustment, the durability of the package and an optimal state for the so-called "green" appearance can be selected.

In one embodiment of the method, preprocessing involves several sets of discs set at a common distance. includes providing a purifying device with a purifying disc, visible here Ignocellulosic adjusting the degree of purification of biomass fibers, the disc distance less than 1.5mm, preferably between 0.5 and 1.5 mm, where the treatment is per 1000 liters of water. Visible Ignocellulosic in the range of 10 kg to 75 kg, preferably 25 kg dry weight Ignocellulosic biomass visible at a concentration of biomass fibers Includes purification of fibers. An example of such a refiner is a Sprout Waldron disc. is a purist.

In one embodiment of the method, the treatment is made of visible lignocellulosic biomass fibers. of visible lignocellulosic biomass fibers for increasing the binder surface Contains fibrillatin. This is also visible with fiber pulp in the dough mix In context, fibrillate means the partial separation of a fiber within the fibers.

In one embodiment, the method is to absorb and pack said fiber pulp mixture. includes providing a vacuum mold with a mesh for forming, where the mesh has an eye opening that is the size of an eye and is visible It has a length of 100 times its magnitude. This is the visible lignocellulosic biomass. along the die so that the fiber is visible on one surface of the package produced. makes it stretch longitudinally. A typical eye size for molding packages is Corresponding to an eye size of 0.251 mm is 60 Tyler Mesh.

In one embodiment, the method attempts to provide a grass scent to the molded fiber food package. It comprises the step of adding an aromatic substance to the fiber dough mixture for Probably The grass odor can be increased or decreased as desired by adding aromatic substances.

In one embodiment, the pulp mixture is added to the fiber pulp mixture as a coloring agent, preferably It is colored by adding a green colored substance containing chlorophyll. Visible lignocellulosic Biomass fibers have an enhanced bond between grass fiber and molded fiber package. visible lignocellulosic biomass to the fiber pulp mix to provide contrast It is reasonable to color it before adding the fibers. This also adds to the attractive effect of the package. also improves. In conjunction with the coloring fibers before adding them to the dough, certain reference, "PROCESS FOR THE MANUFACTURE OF A MOTTLED FIBER PACKAGING" by HUHTAMAKI MOLDED FIBER TECHNOLOGY B.V. The invention also includes a molded fiber package, in particular a food package, in particular. provides a pack of eggs obtained by the method according to the Contains lignocellulosic biomass not derived from wood.

In one embodiment of the molded fiber package, the visible lignocellulosic biomass fibers are visual and/or tactile discrimination of discrete visible lignocellulosic biomass fibers protrudes from a package surface to the extent that it can be This also adds to the attractiveness effect of the package. The various angles discussed in this patent can be combined to provide additional advantages.

Description of Figures The invention further relates to a preferred embodiment illustrated in the figures below. will be explained by reference: Figure 1 is a package in the perspective view obtained by the method according to the invention; Figure 2 is a cross-sectional side view of the package of figure 1; Figure 3 is a detail of an outer surface of the package of figure 1; and Figure 4 shows a simplified process of one embodiment of the method according to the invention. sky

Detailed Description of Regulations Figures 1 and 2 show a molded egg pack (1). Pack (1), approx. a package outer to such an extent that the fibers can be distinguished by sight and/or touch protrudes from its surface (2). These longer grass fibers (12) are approximately 25 It has a length of mm. The longer grass fibers (12) on a fiber dough that allows the long fibers to be placed on the package surface the fibers have such a length that they can remain without sinking. These protruding fibers (12) also enhances the attractiveness effect of the package (1). Grass fibers (12) in a pack protrudes more than the surface (3, 4), thus the inner surface of a mold determined by the suction edge. This suction edge of a mold is the result of a molded fiber food package. It is a well-known concept for producing

Figure 3 shows a detail of an outer surface (2) of the package (1).

Figure 4 shows a process diagram of one embodiment of the method according to the invention.

A fiber pulp for a molding process, also as a storage tank a dough container referred to as a bulk stock tank is found in. A molded fiber pack molding process, with reference number 11 shown and is not disclosed here as it is known per se. This kind of molded a fiber pack molding process with a fiber pulp mix from the pulp container (9) fed.

According to the invention, lignocellulosic biomass not derived from wood (5), 5-60% Ignocellulosic into a dough container (9) to obtain a dough mix containing biomass. is added, wherein the lignocellulosic biomass contains 0 to 2% protein by dry weight.

The method includes pretreatment of the lignocellulosic biomass (5). This pre-treatment is in-situ or (partially) done elsewhere. lignocellulosic biomass elsewhere When pre-treated, the lignocellulosic biomass fibers are directly can be added to the container (9). Here, the pre-treatment consists of lignocellulosic biomass for at least 1 day. preferably in water for a soaking period of at least 2 days.

Here, the pre-treatment consists of the visible lignocellulosic biomass fibers, the storage tank (9) having a length such that the fiber pulp mixture inside can remain on the surface. used to obtain visible ignocellulosic biomass fibers, usually in water cutting (7) the Ignocellulosic biomass (5) before holding (6). Pre-treatment, visible Ignocellulosic biomass with fiber pulp in pulp mix Visible Ignocellulosic biomass to facilitate interaction between fibers A purifier is a purifier consisting of several purifying discs spaced at a common disc distance. performed on the device (not shown). Visible Ignocellulosic biomass fibers the degree of purification is determined by setting the disc distance to 0.5 to 1.5 mm. Visible kg, preferably about 25 kg of visible Ignocellulosic biomass fibers done in concentration. An example of such a refiner is a Sprout Waldron disc. is a purist.

Before adding the Ignocellulosic biomass (5) to the dough container (9), the Ignocellulosic biomass biomass, lignocellulosic biomass containing 0 to 2% protein by dry weight can be processed to remove the protein from the lignocellulosic biomass. This process not shown here.

Also, the foregoing description and figures reflect some embodiments of the invention. It will be clear that the scope of protection is included to show and does not limit the scope of protection. This starting from the description, many more regulations, which are included in the scope of protection will be clear to a person skilled in the art.

Claims (1)

REQUIREMENTS A method for producing a molded fiber pack (1), in particular a food pack, in particular an egg pack, comprising - providing a fiber pulp for a molding process, the fiber pulp contained in a pulp container (9), characterized in that the method - Ignocellulosic biomass (5) from grass, leaves of tomato plants, roots of tomato plants and/or rapeseed stalk, 5 to 80% Ignocellulosic biomass, preferably 5 to 60% added to pulp container, where Ignocellulosic biomass, % by dry weight Contains 0 to 2 proteins, and - the method according to claim 1 for removing the protein from the lignocellulosic biomass in the figure, before adding the lignocellulosic biomass to the dough container, characterized in that the method includes pre-treatment of the lignocellulosic biomass, pre-treatment, at least 1 day, preferably at least 2 days soaking the Ignocellulosic biomass (5) in water for a soaking period (6) includes. The method according to claim 1, characterized in that the pretreatment involves shearing (7) the Ignocellulosic biomass, preferably before soaking, to obtain visible Ignocellulosic biomass fibers having such a length that the visible Ignocellulosic biomass fibers remain on the surface of the fiber pulp mixture The fibers preferably have an average length of less than 5 cm, preferably less than 2 cm, more preferably in the range of 1.5 to 2 cm. The method according to claim 2 or 3, characterized in that the pre-treatment includes the treatment of visible Ignocellulosic biomass fibers (8) for facilitating the interaction between the fiber pulp and the visible Ignocellulosic biomass fibers in the pulp mixture. The method according to claim 4, characterized firstly to facilitate the interaction between the fiber pulp and the visible lignocellulosic biomass fibers in the pulp mixture and secondly to ensure that some of the visible lignocellulosic biomass fibers remain on the surface of the pulp mixture. involves providing a purification device comprising several purifying discs, wherein it involves adjusting its apparent distance to less than 1.5 mm, preferably in the range of 0.5 to 1.5 mm, and treatment (8), wherein the visible lignocellulosic biomass fibers are dry per 1000 liters of water. 10 kg to 75 kg in weight, preferably approximately 25 kg. The method according to claim 4, 5 or 6, the feature of which is the treatment (8), it is visible. It includes providing a vacuum mold with a mesh weave. wherein the mesh has mesh openings of one mesh size and the visible lignocellulosic biomass fibers have a length of 50 to 150 times the mesh size, preferably about 100 times the mesh size. A method according to a previous claim, characterized in that the method includes the step of adding an aromatic substance to the fiber pulp mixture to provide a grass scent to the molded fiber food package. A method according to a previous claim, characterized in that the pulp mixture is colored by adding a colorant, preferably a green colorant containing chlorophyll, to the fiber pulp mixture. A food package of molded fiber obtained by the method according to a previous claim, characterized in that the package contains 0 to 2% by weight protein from grass, leaves of tomato plants, roots of tomato plants and/or rapeseed stalk, 10 to 60% by weight. 12. It is a fiber food package molded according to claim, characterized in that it protrudes on a package surface to such an extent that it can be distinguished by sight and/or touch.