RU229874U1 - Container - Google Patents

Abstract

The utility model relates to semi-rigid containers with a solid body manufactured by injection molding. The technical result is achieved in that the container is made of a polymeric material in the form of an inverted truncated pyramid, contains walls and a bottom, where the angle of inclination of the opposite walls relative to each other is in the range from 8° to 12°, while the bottom thickness is in the range from 0.3 mm to 1 mm, and the wall thickness is in the range from 0.3 mm to 1.2 mm, a protrusion is mounted on the bottom, the height of which is in the range from 0.2 mm to 0.6 mm, a bent side with a height in the range from 2 mm to 4 mm is mounted on the upper edge of the wall, while the bent side is made with an increase in width from 1 mm to 10 mm along the long side of the container from the edges to its central part, where a rim is mounted along the entire perimeter of the bent side, made with a height in the range from 0.1 mm to 0.5 mm, while the container contains stiffening ribs mounted to the outer side of its walls and to the bottom bent side and made with a height from 0.5 mm to 10 mm. Thus, the elements and their characteristics declared in this utility model, due to their parameters, allow for an increase in the strength of the container. 2 s.p. f-ly, 4 ill.

Description

The utility model relates to semi-rigid containers with a solid body manufactured by injection molding.

A container for packaging hot products is known, comprising a rectangular container with a protective film and a lid, the container has roundings on the sides and tapers downwards, characterized in that the upper edge of the container is provided with a horizontal flange onto which a film is applied, closed with a snap-on lid, wherein the width of the flange at the rounding points at the corners of the container is greater by 0.5-3 mm than on the straight part of the flange, wherein on each long side of the side surface of the container, under the flange and perpendicular to it, at least one vertical stiffening ribs with a height of 1 to 20 mm are located, and on the inner surface of the container at a distance of 1/5-1/2 of the total height of the container from the bottom, horizontal stiffening ribs are made at the corners, wherein a rim is made on the bottom of the container, repeating the shape of the contours of the bottom of the container, wherein the lid has a protruding rim, on the inner side of the lid along the inner side of the rim stiffening ribs are placed, wherein the stiffening ribs are placed more often along the long side of the lid, than along the short side of the lid, and on the sides the lid has a flange directed downwards, on the flange there are internal trapezoidal latches in an amount of at least one along the inner side sides to ensure fastening of the lid to the edges of the flange of the container, wherein the latches on the lid are located immediately behind the point of transition of the straight surface to the rounded one, at the transition from the short side of the lid to the long one and are located opposite the stiffening ribs placed on the container under the flange, wherein the latches have different angles of inclination in the upper and lower parts, the angle of inclination in the upper part of the latches is 3-80 °, and the angle of inclination of the lower part of the latches is 10-80 °, wherein the latches have the shape of a right triangle with a rounded corner, where one side is 1.5-2.5 times larger than the other, and the hypotenuse is located parallel to the flange of the lid. [RU141611U1, publ. 10.06.2014].

The disadvantage of the analogue is the lack of a rim on the bent side, as well as the undefined thickness of the container wall, which can reduce its strength.

Also known is a container for packaging hot products, comprising a rectangular container with a protective film and a lid, the container has roundings on the sides and tapers downwards, wherein the upper edge of the container is provided with a horizontal flange, onto which a protective film is applied, closed with a cap-lid, wherein the width of the flange at the rounding points at the corners of the container is greater by 0.5÷3 mm than on the straight part of the flange, and horizontal stiffening ribs are made on the inner surface of the container at the corners, wherein a rim is made on the bottom of the container, repeating the shape of the contours of the bottom of the container, wherein the lid has a protruding rim, stiffening ribs are placed on the inner side of the lid along the inner side of the rim, wherein the stiffening ribs are placed along the long side of the lid more often than along the short side of the lid, and on the sides the lid has a flange directed downwards, on the flange there are internal trapezoidal-shaped latching projections in an amount of at least one along the inner side sides to ensure fastening of the lid by the edges of the flange containers, wherein the projections-latches on the lid are located immediately behind the point of transition of the straight surface to the rounded one at the transition from the short side of the lid to the long one, and the projections-latches have different angles of inclination in the upper and lower parts, the angle of inclination in the upper part α of the projection-latch is 3÷80 degrees, and the angle β of inclination of the lower part of the projection is 10÷80 degrees, and the projection-latch has the shape of a right triangle with a rounded corner, where one side is 1.5-2.5 times larger than the other, and the hypotenuse is located parallel to the flange of the lid, characterized in that in the central part of the rounded corners of the container, starting from the horizontal stiffeners, internal stacking elements are located in the form of vertical rounded stiffeners on the inner surface of the container with a height of from 1/10 to 2/3 of the container height, and the horizontal stiffeners are made at a distance of from 1/10 to 1/2 of the total height of the container from the bottom, and the horizontal the stiffening ribs are simultaneously steps on the outer side of the container, in addition, the width of the vertical rounded stiffening ribs is from 0.3 to 0.95 of the step depth of the horizontal stiffening ribs. [RU173948U1, published 21.09.2017].

The disadvantage of this analogue is the lack of stiffening ribs on the outer walls of the container, which can affect the reduction in the strength of the bent side.

The closest technical solution is described in a container for packaging hot products, comprising a rectangular container with a protective film and a lid, the container has roundings on the sides and tapers downwards, characterized in that the upper edge of the container is provided with a horizontal flange, onto which a film is applied, closed with a snap-on lid, wherein the outer part of the flange is bent downwards, the flange and its outer part repeat the corners of the container rounding, wherein the outer part of the flange bent downwards has an angle of inclination from 90° to 170°, and the horizontal part of the flange has an increase in width by 0.5-5 mm in the middle of the long side of the container, wherein on the horizontal surface of the flange parallel to the walls of the container a rim with a height of 0.05 to 1 mm is made, and on the side surface of the container, under the flange, perpendicular to it, in an amount of at least one on each long side of the side surface there are vertical stiffening ribs with a height of 1 to 20 mm, and on the bottom of the container there is a rim repeating the shape of the contours of the bottom of the container, wherein the lid has a protruding rim, on the inside of the lid along the inside of the rim there are stiffening ribs, wherein the stiffening ribs are located along the long side of the lid more often than along the short side of the lid, and on the sides the lid has a flange directed downwards, on the flange there are internal trapezoidal shaped latches in an amount of at least one along the inner side sides to ensure fastening of the lid to the edges of the container flange, wherein the latches on the lid are located immediately behind the point of transition of the straight surface to the rounded one, at the transition from the short side of the lid to the long one, and their edges are located at a distance of no more than 1/2 the length of the latches from the vertical stiffening ribs located on the container under the flange, wherein the latches have different angles of inclination in the upper and lower parts, the angle of inclination in the upper part of the latches is 3-80 °, and the angle of inclination of the lower part of the latches is 10-80°, while the latch projection has the shape of a right triangle with a rounded corner, where one side is 1.2-3 times larger than the other, and the hypotenuse is located parallel to the flange of the lid [RU141610U1, published 10.06.2014].

The disadvantage of the closest technical solution is the uncertain height of the ledge mounted on the bottom, which may affect the reduction of the container strength.

The technical problem solved by the declared utility model is the elimination of the shortcomings of analogues.

The purpose of the utility model is to increase strength.

The technical result of the claimed utility model consists in increasing the strength of the container.

The specified technical result is achieved in that the container is made of a polymeric material in the form of an inverted truncated pyramid, contains walls and a bottom, where the angle of inclination of the opposite walls relative to each other is in the range from 8° to 12°, while the bottom thickness is in the range from 0.3 mm to 1 mm, and the wall thickness is in the range from 0.3 mm to 1.2 mm, a protrusion is mounted on the bottom, the height of which is in the range from 0.2 mm to 0.6 mm, a bent side with a height in the range from 2 mm to 4 mm is mounted on the upper edge of the wall, while the bent side is made with an increase in width from 1 mm to 10 mm along the long side of the container from the edges to its central part, where a rim is mounted along the entire perimeter of the bent side, made with a height in the range from 0.1 mm to 0.5 mm, while the container contains stiffening ribs mounted to the outer side of its walls and to the bottom parts of the bent edge and made with a height from 0.5 mm to 10 mm.

In particular, the container is made with a height from 30 mm to 65 mm.

In particular, the outer edge of the stiffening rib is made at an angle in the range from 88° to 92° relative to the horizon.

In particular, the container is made of polypropylene.

In particular, the container is made of polyethylene terephthalate.

In particular, the container is made of polyethylene.

In particular, the container is made of polystyrene.

In particular, the design of the container when stacked on other similar containers ensures a gap between the walls in the range from 0.1 mm to 0.8 mm.

In particular, the design of the container when stacked on other similar containers ensures a gap between the bottom of one container and the bottom of another container in the range from 0.5 mm to 10 mm.

The container is characterized by images:

Fig. 1 shows a general view of the container from above;

Fig. 2 shows a top view of the container;

Fig. 3 shows a general view of the container from below;

Fig. 4 shows a side view of the container.

The figures indicate: 1 – wall, 2 – bottom, 3 – ledge, 4 – side, 5 – rim, 6 – stiffener.

The container described as a utility model is intended for packaging, storing and transporting mainly food products. The technical result declared in the form of increasing the strength of the container implies ensuring the strength of the container when performing its main functions, such as storing or transporting both empty in stacks and in a filled state.

According to the utility model, the container is made of a polymer material, such as polypropylene, polyethylene terephthalate, polyethylene or polystyrene. The use of a polymer material in the manufacture of the container is due to its high strength and resistance to mechanical damage, which makes the container durable and protected from deformation, cracks and chips. Polymers are highly resistant to acids, alkalis and other chemicals, which makes them safe for storing various types of products. Thus, the use of a polymer material in the manufacture of a container, due to the combination of positive qualities of this material, significantly increases the strength of the container.

The container is made in the form of an inverted truncated pyramid, which increases the strength of the container during transportation, since containers stacked inside each other are better protected from damage, since they support each other and reduce the likelihood of deformation under external influence, while the inclined walls 1 redistribute vertical loads on the container, which significantly increases the strength of the container by reducing the likelihood of deflection of wall 1 and its deformation.

According to the utility model, the angle of inclination of the opposite walls 1 relative to each other is in the range from 8° to 12°, which increases the strength of the container due to the formation of an inverted truncated pyramid figure, which has high strength characteristics due to the distribution of vertical loads on the walls 1 of the container. Implementation of opposite walls 1 relative to each other with an angle of inclination of less than 8° is not recommended due to the difficulty of stacking containers during transportation, which can lead to an increased gap between the bottom 2 of one container and the bottom 2 of another container stacked on top of each other, and, as a consequence, increase the risk of their damage due to the reduced density of the container stack. Implementation of opposite walls 1 relative to each other with an angle of inclination of more than 12° is not allowed due to a significant decrease in strength caused by the low resistance of the vertical load on the container walls, which can lead to a violation of its integrity.

The container comprises a bottom 2 made, for example, of a rectangular shape with a thickness in the range from 0.3 mm to 1 mm, which significantly increases the strength of the container by ensuring the integrity of the structure, as well as uniform distribution of the load, including when stacking containers on top of each other. A bottom thickness of less than 0.3 mm is not allowed due to insufficient provision of container strength due to possible crushing under lateral load on the container or under increased point pressure on the bottom 2 of the container from the outside. A bottom thickness of more than 1 mm is impractical, since it can lead to increased production costs and increased material consumption without providing additional strength to the container structure, necessary to ensure the performance of the container function.

The container contains walls 1 made with a thickness of 0.3 mm to 1.2 mm, which significantly increases the strength of the container by maintaining the shape of the container, as well as withstanding the load during transportation and stacking. The manufacture of a container with a wall thickness 1 less than 0.3 mm is not allowed due to insufficient strength due to the low thickness, which may lead to a violation of the geometric integrity of the container. The manufacture of wall 1 of the container with a thickness greater than 1.2 mm is impractical due to an unjustified increase in material consumption during its production without an additional increase in the strength of the container structure necessary to perform the functions of the container.

According to the utility model, a projection 3 is mounted on the bottom 2 of the container, the height of which is in the range from 0.2 mm to 0.6. The presence of projection 3 mounted to the bottom 2 of the container is necessary to ensure the reinforcement of its structure. Projection 3 ensures the rigidity and strength of the container structure, preventing its deformation or damage under loads other than the calculated ones. It is not allowed to make projection 3 less than 0.2 mm high due to insufficient rigidity of the container structure, which may lead to a decrease in its strength. It is not recommended to make a projection more than 0.6 mm high due to the increased material consumption in the production of the container, as well as a decrease in the useful volume of the container without a significant increase in its strength.

On the upper edge of wall 1, a bent edge 4 with a height in the range from 2 mm to 4 mm is mounted. The bent edge 4 gives the container additional rigidity and stability, which prevents its deformation during "twisting" and increases the overall strength of the structure, which, in turn, ensures an increase in the reliability of the container. The manufacture of a bent edge 4 with a height of less than 2 mm is not allowed due to insufficient rigidity of the upper part of the container, which can reduce the strength of the entire structure under increased loads. The manufacture of a bent edge 4 with a height greater than 4 mm is impractical due to the increased material intensity in the production of the container without an additional increase in the strength of the container structure necessary to perform its functions.

The bent side 4 is made with an increase in width along the long side of the container from its edges to the central part, and the increase in width can, if necessary, be from 1 mm to 10 mm. Increasing the width of the bent side 4 in the central part of the long side of the container allows for a significant increase in the strength of the container in general and the bent side 4 in particular due to additional structural rigidity. In this case, an increase in the width of the bent side 4 by less than 1 mm is not allowed due to an insufficient increase in its strength, and making the bent side 4 with an increase in its width by more than 10 mm is impractical due to an increase in the overall dimensions of the container without an increase in its useful volume, while there is no significant increase in the strength of the structure when using the bent side 4 with the specified expansion.

According to the utility model, a rim 5 is mounted along the entire perimeter of the bent side 4, with a height in the range from 0.1 mm to 0.5 mm. The rim 5 is necessary to increase the rigidity of the bent side 4 of the container, prevents its deformation and helps to maintain the shape of the container even under heavy loads. At the same time, the execution of the rim 5 with a height of less than 0.1 mm is not allowed due to insufficient increase in the strength of the structure, and the height of the rim 5 is not allowed greater than 0.5 mm, due to insufficient provision of container tightness when closing the container with a lid, while the rim 5 with a height of more than 0.5 mm does not significantly increase the strength of the bent side 4. Thus, the height of the rim 5 mounted on the bent side 4 is accepted as the most effective for increasing the strength of the bent side 4 of the container.

The container comprises stiffening ribs 6 mounted to the outer side of its walls 1 and to the lower part of the bent side 4 and made with a height from 0.5 mm to 10 mm. The presence of stiffening ribs 6 significantly increases the strength of the container by ensuring a uniform distribution of loads on walls 1 of the container and prevents their deformation under the influence of external forces. The arrangement of stiffening ribs 6 on the outer side of walls 1, where one side of stiffening rib 6 is mounted to wall 1 of the container, and the other side to the bent side 4, makes it possible to increase the strength of the container, namely the connection of the connection between walls 1 of the container and the bent side 4, which significantly increases the resistance to external loads of the entire container. A height of stiffening ribs 6 less than 0.5 mm is not allowed due to insufficient provision of container strength, caused by a small contact spot with wall 1 of the container. The height of the stiffening ribs 6 greater than 10 mm is not recommended due to the decrease in the strength of the container when stacked with other containers, since when stacking containers for storage and transportation, the lower edge of the stiffening ribs 6 of one container rests against the bent side 4 of another container, thus, when making stiffening ribs 6 higher than 10 mm, the containers will not sit tightly inside each other and there is a risk of the entire stack tipping over during its transportation and storage. At the same time, making stiffening ribs 6 higher than 10 mm significantly increases the material consumption in the manufacture of the container without significantly increasing its strength.

The outer side of the stiffening ribs 6 is made at an angle in the range from 88° to 92° relative to the horizon, which, if necessary, can additionally increase the strength of the containers when stacking them on top of each other due to their correct positioning on top of each other, namely the location of the stiffening ribs 6 on the bent side 4, which prevents the containers from falling inside each other when stiffening ribs 6 are made with an outer edge at an angle less than 88° to the horizon. The implementation of stiffening ribs 6, where their outer edge is made at an angle of more than 92° relative to the horizon is not recommended, due to the fact that in this case it can reduce the convenience of storing and transporting stacks of containers, as well as reduce the strength of the entire container due to protrusion beyond the overall projection of the container, which can lead to the breakage of stiffening rib 6.

When stacking containers on top of each other for storage and transportation, the container design, in particular the stiffening ribs 6, the height of the bent side 4 and the angle of inclination of the walls 1 provide a gap between the walls 1 of the containers in the range from 0.1 mm to 0.8 mm, and a gap between the bottom 2 of one container and the bottom 2 of another container in the range from 0.5 mm to 10 mm, which, if necessary, can additionally increase the strength of the container due to the prevention of the containers sticking together during their storage and transportation, which, for example, when moisture gets in, can significantly reduce the risk of damage to the polymer material from which the container is made.

The container, if necessary, can be made with a height from 30 mm to 65 mm, which, if necessary, can additionally increase the strength of the container due to the proportionality of the strength characteristics of the container elements, such as walls 1, bent side 4, bottom 2 and stiffeners 6, namely their thickness and dimensions to the overall height of the container. Making a container less than 30 mm high is not recommended due to the disproportionate dimensions of the remaining container elements, as well as due to the low useful volume of a container with a height lower than stated. A container height higher than 65 mm is not recommended due to a possible decrease in its strength due to a disproportionate increase in height without a corresponding increase in wall thickness, which can lead to their crushing under the influence of external forces.

Thus, the production of a container from a polymeric material in the form of an inverted truncated pyramid containing walls 1 and a bottom 2, where the angle of inclination of the opposite walls 1 relative to each other is in the range from 8° to 12°, wherein the thickness of the bottom 2 is in the range from 0.3 mm to 1 mm, and the thickness of the walls 1 is in the range from 0.3 mm to 1.2 mm, a projection 3 is mounted on the bottom 2, the height of which is in the range from 0.2 mm to 0.6 mm, on the upper edge of the wall 1 a bent rim 4 is mounted with a height in the range from 2 mm to 4 mm, wherein the bent rim 4 is made with an increase in width from 1 mm to 10 mm along the long side of the container from the edges to its central part, where along the entire perimeter of the bent rim 4 a rim 5 is mounted, made with a height in the range from 0.1 mm to 0.5 mm, wherein the container contains stiffening ribs 6, mounted to the outer side of its walls 1 and to the lower part of the bent side 4 and made with a height of 0.5 mm to 10 mm, which, in combination with the elements and their characteristics, significantly increases the strength of the container.

Examples of implementation

First example of implementation

A container 30 mm high is made of a polymeric material in the form of an inverted truncated pyramid, containing walls 1 and a bottom 2, where the angle of inclination of the opposite walls 1 relative to each other is 8°, while the thickness of the bottom 2 is 0.3 mm, and the thickness of the walls 1 is 0.3 mm, a projection 3 is mounted on the bottom 2, the height of which is 0.2 mm, a bent side 4 with a height of 2 mm is mounted on the upper edge of the wall 1, while the bent side 4 is made with an increase in width by 1 mm along the long side of the container from the edges to its central part, where a rim 5 made with a height of 0.1 mm is mounted along the entire perimeter of the bent side 4, while the container contains stiffening ribs 6, mounted to the outer side of its walls 1 and to the lower part of the bent side 4 and made with a height of 0.5 mm, where the outer edge of the stiffening ribs 6 is made at an angle of 88° relative to the horizon.

Second example of implementation

A container 45 mm high is made of a polymer material in the form of an inverted truncated pyramid, containing walls 1 and a bottom 2, where the angle of inclination of the opposite walls 1 relative to each other is 10°, while the thickness of the bottom 2 is 0.7 mm, and the thickness of the walls 1 is 0.8 mm, a projection 3 is mounted on the bottom 2, the height of which is 0.4 mm, a bent side 4 with a height of 3 mm is mounted on the upper edge of the wall 1, while the bent side 4 is made with an increase in width by 5 mm along the long side of the container from the edges to its central part, where a rim 5 made with a height of 0.3 mm is mounted along the entire perimeter of the bent side 4, while the container contains stiffening ribs 6, mounted to the outer side of its walls 1 and to the lower part of the bent side 4 and made with a height of 5 mm, where the outer edge of the stiffening ribs 6 is made at an angle of 90° to the horizon.

Third example of implementation

A container 65 mm high is made of a polymer material in the form of an inverted truncated pyramid, containing walls 1 and a bottom 2, where the angle of inclination of the opposite walls 1 relative to each other is 12°, while the thickness of the bottom 2 is 0.1 mm, and the thickness of the walls 1 is 1.2 mm, a projection 3 is mounted on the bottom 2, the height of which is 0.6 mm, a bent side 4 with a height of 4 mm is mounted on the upper edge of the wall 1, while the bent side 4 is made with an increase in width by 10 mm along the long side of the container from the edges to its central part, where a rim 5 made with a height of 0.5 mm is mounted along the entire perimeter of the bent side 4, while the container contains stiffening ribs 6 mounted to the outer side of its walls 1 and to the lower part of the bent side 4 and made with a height of 10 mm, where the outer edge of the ribs rigidity 6 is made at an angle of 92° relative to the horizon.

Thus, the elements and their characteristics declared in this utility model, due to their parameters, allow for an increase in the strength of the container.

Claims (3)

1. A container made of a polymeric material in the form of an inverted truncated pyramid, containing walls and a bottom, where the angle of inclination of the opposite walls relative to each other is in the range of 8° to 12°, while the thickness of the bottom is in the range of 0.3 mm to 1 mm, and the thickness of the walls is in the range of 0.3 mm to 1.2 mm, a protrusion is mounted on the bottom, the height of which is in the range of 0.2 mm to 0.6 mm, a bent side with a height in the range of 2 mm to 4 mm is mounted on the upper edge of the wall, while the bent side is made with an increase in width from 1 mm to 10 mm along the long side of the container from the edges to its central part, where a rim is mounted along the entire perimeter of the bent side, made with a height in the range of 0.1 mm to 0.5 mm, while the container contains stiffening ribs mounted to the outer side of its walls and to the bottom bent edge and made with a height from 0.5 mm to 10 mm. 2. A container according to item 1, characterized in that it is made with a height of 30 mm to 65 mm. 3. A container according to item 1, characterized in that the outer edge of the stiffening rib is made at an angle in the range from 88° to 92° relative to the horizon.