RU130968U1 - DISPOSABLE CONTAINER FOR FOOD STORAGE - Google Patents

Abstract

A disposable food storage container made in the form of a thin-walled cup or bowl, having a round concave bottom and a truncated cone in the form of a side wall with an external flanging along the edge, while the cup or bowl is made of expanded polystyrene, the bottom is concave in shape with an annular protrusion located in the zone of transition of the bottom to the side wall, which is formed in the radial direction by three consecutive flat surfaces mating with each other, and a flat centrally located round shape with a platform inside this protrusion, the surface of which is located below the arcuate section of the protrusion with the side wall, and the height of the annular protrusion of the bottom is less than the height of the arcuate section of this protrusion with the side wall, characterized in that on the inner surface of the side wall below the level the flanging is made stiffening in the form of an annular protrusion, while the thickness of the side wall is made equal to the thickness of the wall, forming a concave shape of the bottom .

Description

This utility model relates to containers, in particular, to disposable containers obtained by molding from expanded polystyrene (EPS), (EPS), and which are externally coated with a latex coating to maintain the integrity of the structure of the walls of the container. Such containers are used to store liquids, such as coffee, or foods containing oil and / or fatty components, such as instant noodles, soups, etc.

The preparation of containers (EPS), (IPN) like cups or bowls by molding from polystyrene foam is well known.

Foamed polystyrene (EPS) is a special way foam plastic containing tiny air bubbles. There are two types of similar material: polystyrene (expandable polystyrene) and extruded expanded polystyrene. Extruded expanded polystyrene is made from general purpose polystyrene granules. At the stage of extrusion by special methods, foamed polystyrene tape is obtained, which is subsequently molded into certain products. It is in this way that the majority of trays and utensils are made, which can be found today in shops and fast food points. During extrusion, polystyrene can be foamed up to 100% of its own density. Foaming can take place during extrusion, as well as during post-formation operations, such as thermoforming. Successful extrusion of foamed plastic depends on the regulation of temperature and pressure inside the extruder. Thanks to the foaming process, a thick film can be made of the same amount of material as a thinner one. This fact allows for economical production. In the production of CHD, great importance is attached to the homogeneity of its cellular structure. During physical foaming without special additives, a “rough” structure foam is obtained. To form a good homogeneous cellular structure, so-called nucleation agents (or nucleators) are often added to polystyrene, which, when foaming, are foam growth centers. The more nucleusator is introduced into polystyrene, the more cells are formed, and their size will be smaller. The amount of nucleator introduced also affects the speed of the foaming process itself. One of the best inactive (passive) type nucleators is talc, the action of which is based on the formation of obstacles for the exit of the foaming gas from the polymer melt. Due to the heat-insulating properties of IPNs, two-sided heating is used during thermoforming. IPN has a structure that is a multitude of unreported cells. It is a good damping material (with sufficient thickness), a good heat insulator. Its surface is wear-resistant, which is an important factor when choosing packaging for the product.

The UPU has excellent heat-insulating properties, the dishes from the UPU for hot food products will keep them hot and not burn their hands, and the packaging for deep-frozen products will ensure their safety during transportation. Perfectly retaining moisture, UPU lets air pass in small amounts, “breathes”, which is a necessary condition for the preservation of fruits and confectionery. The ability of UPU to dampen shock and vibration effects, protecting it from deformation, makes it possible to make packaging for fragile items from it. Such packaging is quite easy to form, in addition, the IPN can be painted in any color. Packing from UPU has a relatively low price compared to the cost of the goods. Such packaging looks beautiful and neat, makes a good impression on the buyer.

It is known a deep elongated product made of a foamed thermoplastic sheet by preheating a sheet of starting material from thermoplastic foam, clamping a heated sheet in a fixed position between the punch and the die, relative movement of the punch and the die to the final molding position to stretch the sheet, creating a vacuum through the matrix with one from the sides of the foam sheet while moving the punch and the die to the final position of molding and cooling of the material, while initially The material used for the manufacture of the product used thermoplastic foam containing 1-15 wt.% rubber component having most of the particles less than 0.45 μm in size, and the foam sheet has a density of 0.04-0.16 g / cm ³ and a thickness of 0, 4-6.5 mm, and with the relative movement of the punch and the die to the final molding position, vacuum was also used from the second side of the foam sheet through the punch (RU No. 21367671, B29C 67/20, B29C 51/08, publ. July 27, 1999).

Structurally, the disposable container for storing food products is made in the form of a thin-walled cup or bowl, having a round bottom in concave shape and in the form of a truncated cone side wall with an external flanging along the edge, while in the cup or bowl under the flanging the side wall is made with a step transition . The side wall is made in the shape of a truncated cone and has an arcuate transition of the wall in a concave bottom shape.

Known disposable container for storing food products, made in the form of a thin-walled cup or bowl having a round bottom concave shape and a truncated cone side wall with an outer flanging at the edge, while the cup or bowl is made of expanded polystyrene with a latex film coating on the outer surface of the bottom and side wall, while under the flanging the side wall is made with a stepped transition, the cup or bowl is made in single-step molding from a sheet or tape having latex film coating of foamed polystyrene, the concave bottom being made with an annular protrusion located in the zone of transition of the bottom to the side wall, which is formed in the radial direction by three consecutive flat surfaces conjugated with each other, and a flat centrally located round shape area inside this protrusion , the surface of which is located below the arcuate section of the protrusion with the side wall, while the height of the annular protrusion of the bottom is made less than the height of the arcuate section of this protrusion with the side wall (RU 94511, B29C 67/20, publ. 05/27/2010)

The decision was made as a prototype.

The disadvantage of this solution is the lack of rigidity of the form and bearing capacity due to the fact that the side wall with the developed surface has the ability of increased spatial deformation in the upper part adjacent to the flanging, which leads to cracking of the side wall when the cup is squeezed by hand. The bowl is made of IPN and is a thin-walled shell, developed in height. The presence of a flange forms a stiffener along the perimeter of the shell, and below the presence of kinks, which are used to prevent sticking of the bowls when they are stacked one into the other, does not fulfill the function of the stiffener sufficiently due to the development of the surface of the side wall of the cup.

The technical result achieved in this case is to improve the operational characteristics of single use for food storage by increasing the resistance to spatial deformation.

This result is achieved by the fact that in a disposable container for storing food products made in the form of a thin-walled cup or bowl having a round concave bottom in the shape of a truncated cone and a side wall with an outer flanging along the edge, while the cup or bowl is made of expanded polystyrene, the concave bottom is made with an annular protrusion located in the zone of transition of the bottom to the side wall, which is formed in the radial direction by three consecutively paired with each other flat surfaces, and a flat centrally located round shape with a platform inside this protrusion, the surface of which is located below the arc-shaped section of the protrusion with the side wall, and the height of the ring-shaped protrusion of the bottom is less than the height of the arc-shaped section of this protrusion with the side wall on the inner surface the side wall below the flanging level a stiffener is made in the form of an annular protrusion, while the thickness of the side wall is made equal to the wall thickness, boiling concave bottom.

These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present utility model is illustrated by a specific example of execution, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result.

Figure 1 shows a cup (bowl) of IPN for a food product diluted with hot water.

According to the present utility model, a disposable packaging design for food products, such as a bowl or cup, is made in the plan of a round shape and made by molding from expandable thermoplastic particles.

Foaming thermoplastic particles are obtained from any suitable thermoplastic homopolymer or copolymer. Particularly suitable for use are homopolymers derived from vinyl aromatic monomers, including styrene, isopropyl styrene, alpha-methyl styrene, nuclear methyl styrenes, chlorostyrene, tert-butyl styrene and the like, as well as copolymers obtained by copolymerization of at least one vinyl aromatic monomer with monomers such as divinylbenzene, butadiene, alkyl methacrylates, alkyl acrylates, acrylonitrile and maleic anhydride, in which the vinyl aromatic monomer is present in an amount of at least 50% May. by weight of the copolymer.

Styrene polymers are preferred, especially polystyrene. However, other suitable polymers can be used, such as polyolefins (e.g. polyethylene, polypropylene) and polycarbonates, polyphenylene oxides and mixtures thereof. Preferably, the expandable thermoplastic particles are expandable polystyrene particles (EPS). Foaming thermoplastic particles are impregnated with a suitable blowing agent using any conventional method. For example, impregnation can be obtained by introducing a blowing agent (such as butanes, pentanes, hexanes, and halogenated hydrocarbons, such as CFC and HCFC, which are boiled at a temperature below the softening point of the selected polymer, a mixture of aliphatic hydrocarbon blowing agents) into an aqueous suspension during the polymerization polymer or, alternatively, by re-suspending the polymer particles in an aqueous medium and then introducing a blowing agent, as described in US patent No. 2983692. Alternatively, water may be mixed with said aliphatic hydrocarbon blowing agents, or water may be used as the sole blowing agent, as described in US patents Nos. 6127439, 6160027 and 6242540.

In a traditional manner, the foamed particles are heated in a closed form with additional foaming of the particles and with the formation of the foamed molded container.

A thermoplastic container may be a polystyrene cup, which is made by a traditional cup forming machine that has an inner shell and an outer shell. A traditional cup-forming machine is a MODEL 6-VLC-125 cup-making machine manufactured by Autonational B.V. or a MODEL M10 cup-making machine manufactured by Master Machine & Tiil Co.

A disposable container for storing food such as a cup or bowl (Fig. 1) is made in the form of a thin-walled cup or bowl of expanded polystyrene having a round bottom 1 concave shape and a truncated cone side wall 2 with an outer flange 3 along the edge, in this case, under the flanging 3, the side wall is straight and without a step transition. But on the inner side (surface) of the side wall, at a level below the flange, an annular stiffener 4 is molded in the form of an annular protrusion, which allows the formation of a thin-walled space-hard shell of the upper part of the cup, which allows the use of a lid and holding increased loads in this part of the cup. This protrusion is also used to limit the recess of one cup when it is placed in another cup, which allows convenient packaging of a large number of cups. This protrusion does not allow the walls of the stacked bowl (bowls) to stick to the walls of each other (VSP has enhanced adhesive properties)

The cup or bowl is made of expanded polystyrene, while the cup or bowl is made in one-step molding of a sheet or tape of expanded polystyrene. The thickness of the side wall is made equal to the thickness of the wall, forming a concave shape of the bottom. In a specific example, the wall thickness is 2.5 mm. With such a thickness, the shell acquires increased rigidity, reinforced in the upper part not only by flanging, but also by an annular protrusion.

To form the spatial rigidity of the bottom of the cup or bowl and ensure load-bearing capacity, the concave bottom is made with an annular protrusion 5 located in the zone of transition of the bottom to the side wall. This annular (annular) protrusion 5 is formed in the radial direction by three consecutively adjacent flat surfaces 6, 7, 8 and a flat centrally located circular shape platform 9 inside this protrusion, the surface of which is located below the arc-shaped section 10 of the protrusion with the side wall.

The spatial rigidity in the bottom zone is also determined by the fact that the height of the annular protrusion 5 of the bottom is made less than the height of the section 10 of the arcuate conjugation of this protrusion with the side wall.

The utility model is industrially applicable, is implemented in molding machines using known technologies, while the performance of such a container for a food product is determined by the peculiarities of the shapes of individual parts of a cup or bowl, providing a thin-walled shell with spatial stiffness and high load-bearing capacity for a product weighing up to 1-1.5 l

Claims (1)

A disposable food storage container made in the form of a thin-walled cup or bowl, having a round concave bottom and a truncated cone in the form of a side wall with an external flanging along the edge, while the cup or bowl is made of expanded polystyrene, the bottom is concave in shape with an annular protrusion located in the zone of transition of the bottom to the side wall, which is formed in the radial direction by three consecutive flat surfaces mating with each other, and a flat centrally located round shape with a platform inside this protrusion, the surface of which is located below the arcuate section of the protrusion with the side wall, and the height of the annular protrusion of the bottom is less than the height of the arcuate section of this protrusion with the side wall, characterized in that on the inner surface of the side wall below the level the flanging is made stiffening in the form of an annular protrusion, while the thickness of the side wall is made equal to the thickness of the wall, forming a concave shape of the bottom .

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