DE2137586A1 - Nestable containers - Google Patents

Description

Yerso nestable containers

The invention relates generally to thin-walled plastic nestable containers in which J-molded elements are provided which prevent that within a stack of such containers adjacent to each other Jamming containers together or sticking to one another, and it relates in particular to containers which such IOrmelemente are formed on the container bottom.

Thin-walled plastic containers are manufactured in large volumes for a wide variety Zweck® "Such containers are generally shell or Bech rförmig @ _s and they have diverging side walls from the bottom upwards. These containers are usually made in molds, and since most of the containers are single-use only, they are made with a wall thickness ₉ that is in the order of 0.25 bites and loaded a stack formed from such containers verklammen a ± oh the container together _s una further deform the container in this case very easily, and who SI® = the easily when loading a Behälterstapais as well as rough handling corrupted

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Axial forces which are sufficient to hold containers together to jam, or to let them get stuck together, occur in normal use as well as in use Machines open easily, and they make it impossible to remove individual containers from the top or bottom of the stack do. In automatic devices, e.g. B. in vending machines dispensing beverages, such Jamming or sticking of the container lead to the device in question becoming inoperable. If that Stack a container (each to be removed by hand jamming or snagging of the containers can result in damage and thus wasted material to lead. In order to overcome these difficulties, one can provide each shaped container with Pormelemente, which to do so serve to keep neighboring containers separated from one another within a stack. These release agents can be used in the area the edge, the side wall or the bottom of the container may be provided. In one embodiment, the side walls are or the container bottom is provided with a pattern formed from projections. If the side wall of a thin-walled Container made of plastic is provided with such projections, can no longer be printed, and moreover the pleasing appearance of the smooth shape of the side wall is lost. If, however, the protrusions of the side wall after extend inside, they form depressions on the outside in which dust and dirt can settle.

As an alternative to such side wall projections, the containers can be provided with stacking projections on the bottom. Such stacking projections of various shapes formed on the ground are e.g. As in the US Patents 2,988,258, 3,027,596, $ 151,845 and 5,442,420 described. Such bottom projections must fulfill their purpose regardless of which angular position adjacent containers assume relative to one another. For example, such a

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The ledge does not have such a sun that it is nest with the bottom protrusion of an adjacent container can when the containers are brought closer to each other by an axial force, because in this case the projections meet not their job.

Furthermore, the projection must be designed so that it can be easily shaped and removed from the mold. In the said U.S. Patent 2,988,258 has been proposed that To provide the bottoms of containers with stacking protrusions of at least two different types that are easy to shape, so that it is possible to cause adjacent containers to have projections of different shapes exhibit. This avoids awar that adjacent projections nestle with one another or slide into one another, however, the molding and packaging of the containers becomes considerably more complicated. In the other three above named D.S.A. patents are on the bottom of the container formed otapelvorsprünge proposed that do a partition wall, velche with an undercut or an inwardly receding portion is provided and an upper stacking shoulder with a lower stacking shoulder connects. In this way, a contact shoulder is created at the upper end of each projection, which is connected to the bottom of an adjacent one Container can work together. The presence of such undercuts or receding inward However, surfaces lead to significant difficulties in molding the container. If there are inwardly recessed wall sections that are diametrically opposed to each other, the part of the mold used to form the projection is enclosed by these surfaces, so that it is difficult to remove the container from the mold. This can mean that the mold wears out faster, that the production speed of the machine for forming the containers decreases.

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and that the containers will be damaged. In order to avoid these difficulties, containers have already been proposed, in which the projection is provided with only a single undercut, but this measure as explained in more detail below, is not a satisfactory solution.

It is desirable that the axial force acting on a stack be uniformly applied to the bottom of each individual container to avoid the risk of damaging the container by concentrating the forces on a single one Focus point. If there is only one undercut, the whole axial one is concentrated Force on a single point, and in many cases the strength of the container is exceeded at that point, or the container is turned into a wedge Side pressed, or a protrusion is pushed over the adjacent vase in the sense of a nesting, when the radii of adjacent projections coincide by chance.

Another consideration when designing Note that there are stack protrusions on the bottom of the container in that it is desirable to ensure that the projection protrudes as little as possible into the interior of the container, however, that the projection reliably prevents jamming of adjacent containers. Furthermore, the lead should Appear to be pleasing and must not interfere with the use of tools designed to assist the Container to remove its contents.

In the case of the stacking protrusions formed on the container bottom according to the aforementioned U.S. Patents the above-mentioned tasks are therefore not achieved.

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The invention now proposes the creation of a novel stacking projection formed on a container bottom, in which the difficulties mentioned at the beginning are largely or completely avoided. A thin-walled plastic container made according to the invention has a side wall that extends upwardly and outwardly from a bottom, and the bottom of the container is provided with a stacking protrusion comprising a lower stacking shoulder and an upper stacking shoulder which coincides with the axis of the container are arranged concentrically and symmetrically to one another. : The upper stacking shoulder forms an odd number of tabs that protrude radially outward, with at least three such tabs being provided. The upper stacking shoulder can also form the edge of an upper surface that is parallel to the container bottom and arranged in an elevated manner. A wall of the projection connects the lower stacking shoulder with the upper stacking shoulder. On the outer parts of the tabs, the upper stacking shoulder extends outward from the container axis over a radial distance which is greater than the radius of that part of the lower stacking shoulder which is in vertical alignment with the outer part of the relevant And the difference between the two lengths or radii corresponds at least to the wall thickness of the material from which the container is _made.As a result, the upper stacking shoulder and the upper surface of the projection® © in a contact section, which cooperates with the underside of the adjacent stacking protrusion, and which is also present and remains effective when adjacent stacking protrusions are oriented in the same way around the drilling axis, which is also the connecting wall Stack protruding slat © in © Nei # mg _s d ± © vm the BeMlterachs® h © rum along the circumference of the upper stator shoulder varies ₉ md in the B @ r © i © li öed © sd © r system from · = cuts by the Lapp ®n diverges di ©

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the container axis. As a result, the connecting wall has an undercut in the area of each tab of the upper stacking shoulder on.

The removal of a container designed according to the invention from the mold is facilitated by the fact that the undercut Parts of the projection are arranged in a novel way so that they are not directly opposite one another so that the container can be easily and safely deformed to the required extent while aer the shape is removed becomes wild without being damaged and without needing to exert a great deal of force »

If several are combined in a stack according to the invention If an axial force acts on the container, this force is symmetrically distributed over a large part of the container bottom, so that a lateral displacement of the container under the influence of the axial force is avoided and the danger damage to the container is reduced. Since the stack projection according to the invention has several symmetrical contact sections has, when an axial force is applied, there is no risk of projections being pushed into one another that are in axial congruence with each other.

The invention is thus based on the object to provide a thin-walled container, whose bottom is provided with a novel Stapelvorspnmg _s which is designed ISTJ that do not jam or upon application of an axial force adjacent containers together stuck together "Further, should a thin-walled container v created / earth, the bottom of which is provided with a new type of stacking gate, so that the container can be easily removed from the mold. In addition, a thin-walled container is to be created, the bottom of which is provided with a novel stacking projection in such a way that a container

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stack of applied axial forces symmetrically over a large part of the bottom of each container can be distributed.

The invention and advantageous details of the invention are explained in more detail below with reference to schematic drawings of exemplary embodiments.

Fig. 1 is a partially broken away perspective view of a seamless thin-walled container made of plastic, the bottom of which with an inventive Stack protrusion is provided *

. 2 shows the container according to FIG. 1 in a larger one Scale in plan.

Fig. 5 is a partial section along the line III-III " in Fig. 2.

Figure 4 illustrates, in axial section, the relationship between the stacking projections of adjacent containers according to the invention.

Fig. 5 shows a further embodiment in plan the invention.

From Figs. 1 to 5, the general shape is an overall with 10 designated cup or container can be seen, which at its bottom with inventive stacking means is provided. The container 10 is as seamless, thin-walled Container made of a thermoplastic material, e.g. B. polystyrene, and it has a frustoconical shape with a base 12 and a continuous side wall 14, which extends upwards and outwards from the base 12 and ends at an edge section 11. With the one shown Containers are just an example, because you can just as easily use containers of other shapes as well.

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like containers made from other materials on your Provided the bottom with a stack projection according to the invention.

The container bottom 12 is provided with a novel stacking projection 18 consisting of one piece, which is manufactured in a known manner with the application of heat. According to Pig. 3, the plug projection 18 comprises a lower stacking shoulder 13 "one opposite this stacking shoulder axially offset upper stacking shoulder 15 and a connecting wall 16. Although FIGS. 1 to 4 show a stacking projection extending into the interior of the container 18, but this stack projection could also be directed outward or downward within the scope of the invention.

The lower stacking shoulder 13 lies in the plane of the base 12 and is opposite the axis 17 of the container arranged symmetrically or concentrically with the axis. According to Pig. 2 the lower stacking shoulder 13 is circular, and it has a radius R ^, but the lower stacking shoulder could also have a different outline shape within the scope of the invention.

The upper stacking shoulder 15 expediently lies in a plane parallel to the plane of the base 12, and it comprises several tabs 21. According to the invention, at least three tabs 21 are present, but any other odd number of such tabs could also be provided. The upper stacking shoulder 15 extends along the circumference of an upper surface 20 and can lie in the same plane as this upper surface. Certain parts of the upper stacking shoulder 15 protrude in the radial direction outward beyond the parts of the lower stacking shoulder that are in vertical alignment with them. If the lower stacking shoulder 13 is circular, these parts of the upper stacking shoulder 15 extend outwardly along a radius R ₂ which is greater than the radius R ^

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of our stacking shoulder so that the upper stacking shoulder Has contact sections 22 which can come into contact with the underside of an adjacent container. the upper stack shoulder 15 also delimits inwardly displaced Sections 19 which each lie between two adjacent tabs 21. The eadius of the nacli offset inside Sections 19 is smaller than the radius R ^ of the lower stacking shoulder $ 1 or at most equal to this radius. The largest radial distance Sp between the container axis 17 and the upper shoulder 15 in the area of the contact sections 22 is preferably greater than the radial distance between the container axis and a point on the lower stacking shoulder 13, which is in vertical alignment with the relevant Abutment section 22 stands, and this difference corresponds at least to the wall thickness of the material which the container is made of. This ensures that there is sufficient overlap between the stacking projections adjacent container is present to allow nesting to prevent neighboring containers. In the embodiment shown in FIG. 2, the surface 20 is approximately similar a three-leaf clover. However, it is not necessarily it is necessary that three tabs 21 are present $ according to the invention, however, at least three tabs must be provided but one could also use another odd number of lobes. These lobes can be formed by arcs of a circle be limited, or they may have a different outline shape, as it is e.g. B, shown in Fig. 5

Although the lower stacking shoulder 13 according to FIG. 2 and 3 has a circular plan shape, but this is not necessarily the case necessary. The most important requirement is in the lower stacking shoulder that the radius I ^ of the upper Stacking shoulder 15 in the area of the contact sections 22 must be greater than the radius IL of the vertical curse

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device with the relevant system section 22 standing part the lower stacking shoulder 13. The remaining parts of the edge of the upper stacking shoulder 15 have a radius that is the same the radius of the vertically aligned sections of the lower stacking shoulder 13 or with these parts is smaller than this radius.

Furthermore, the projection comprises a side wall 16 which the upper stacking shoulder 15 with our stacking shoulder 13 connects. Since the radius of the contact sections 22 is larger than the radius of the vertical refugee standing with it Parts of the u ren stacking shoulder 13, the inclination of the side wall varies between an angle A, at which the wall on the AnI ageabschni vben 22 opposite the container axis 17 is inclined outward, and an angle B at which the other parts of the side wall 16 opposite the axis 17 are inclined inwards, as can be seen from FIG. Although FIGS. 1 to 3 show in a circumferential direction alternating portions of the side wall 16 which have a simple curvature and which are attached to each tab 21 merge into one another at pronounced cutting lines, but the side wall 16 could also have a three-dimensional curvature have so that they have a smoothly curved surface forms.

The maximum inclination of the side wall 16 in the direction of the Behälcerachse 17 z. B. according to the height of the Projection, as well as after that, that it is desired, the projection only over the smallest possible distance into the interior of the container to protrude. In the case of the container shown, the maximum convergent angle B is between the vertical and the side wall 16 about 37 ° · parts of the side wall 16 of the projection that are not in perpendicular alignment with the contact sections 22 of the tabs can run parallel to the axis © 17, instead of in the direction of

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the axis to be inclined; d. H _o , with these lines the angle B can be 90 °. If the undercut angle A in the area of the contact sections 22 is increased, the surface area of the individual contact sections 22 also increases should be caused.

As shown in FIG. H- , jamming of adjacent containers is prevented by the fact that parts of the bottom 12a of an upper container 10a cooperate with the contact sections 22 of the lower container 10, regardless of the relative angular position of the tabs 21 of the two protrusions © 18 and 18a are supported by all the plant sections 22 of the lower cup 10 on the bottom 12a of the upper cup «.

Since the tabs 21 form a symmetrical pattern, the upper container 10a is at three equally angularly spaced dots in a plane parallel to the bottom 12 of the lower container 10 regardless of the relative angular position of the two containers transmitted to the other w ill be spread over a large part of the bottom of the container concerned, _s not that these forces concentrate on a single calibration point.

Removing a molded container from the mold is facilitated _s that are distributed symmetrically undercut portions are provided, each of which is opposed to a portion of the wall 16, which forms no undercutting.

The projection 18 should have the smallest possible height, so that only a minimal part of the capacity of the container is lost4 the selected height H & © s Vorspiungs

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18 "depends on the divergence angle of the side wall 10, the thickness of the material from which the containers are made and the desired spacing between the side walls 10 adjacent container, since the stacking projection 18 according to the invention is symmetrical in relation to the container axis 17 axial forces acting on a stack of containers are transmitted evenly from one container to the next, and therefore the risk is eliminated that container tilting movements in the direction of facing away from a contact shoulder Run page. In addition, the container is prevented from deforming in a certain direction, so that the protrusions of adjacent containers nest together.

The invention is not limited to the shape of the projection 18 shown in particular in FIG. 2. As shown in FIG. 5, the upper stacking shoulder can be 35 ζ. B. a head start 38, which in plan has the form of an equilateral Has triangle and has contact sections 42 at its corners. The projection 38 is in relation to the container axis 37 a symmetrical shape. In the embodiment according to FIG. 5, the lower stacking shoulder 33 also has a general one triangular outline shape. The radial distance from the top of the stacking shoulder 35 from the container axis 37 at the corners of the projection is slightly larger than the radial distance between the container axis and the parts of the lower stacking shoulder 33 » which are in vertical alignment with the corners of the upper stacking shoulder. The corners therefore form contact sections 42. In the embodiment according to FIG. 5, there are three such contact sections available. The inclination of the side wall 36 of the protrusion varies in that of the first embodiment in the manner described with reference to Figs. that is, the side wall 36 is in the area of each of the abutment sections 42 inclined so that it forms an undercut.

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In the framework of the invention, the shape of the container projection vary within wide limits. The above are just two examples of the numerous design options that are available described. Taking into account the parameters mentioned, the number of lobes can also vary will. As a result, there are numerous implications for the invention Possible applications for containers of the most varied types, which are also made from numerous different materials can be produced.

Claims :

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Claims (13)

EXPECTATIONS IJ container with one bottom and one up from the bottom of side wall extending upwards and outwardly away from the axis of the container, characterized in that the bottom (12) of the container (10) is provided with a stacking projection (18) that this stacking projection extends around the container axis (17), that the stacking projection is one in the plane of the container bottom comprises lying lower stacking shoulder (13), as well as one of the lower stacking shoulder by one axially spaced apart upper stacking shoulder (15) parallel to the bottom and having an odd number of lobes (21), of which no less than three are symmetrically distributed around the container axis, and differ from the Axis extending radially outward that is the radial distance (Bp) between the container axis and the upper one The stacking shoulder in the area of the outer parts of the tabs is greater than the radial distance (E ^) between the container axis and those parts of the lower stacking shoulder which are in vertical alignment with the outer parts the tabs stand, so that each tab has a contact portion (22) with the bottom (12a) of an adjacent Container (10a) cooperates, and that the projection comprises a wall (16) which the lower · stacking shoulder connects to the upper stacking shoulder. 2. Container according to claim 1, characterized in that the tabs (21) at circumferential intervals are distributed, and that between each two neighboring Flap an inwardly offset section (19) present 209811/0296 is, within which the edge of the upper stacking shoulder (15) at a smaller radial distance from the container axis (17) runs as the parts of the lower stacking shoulder (15) that are in vertical position with the inward staggered sections. 3. Container according to claim 2, characterized in that the lower stacking shoulder ($ 1) is circular, and that the tabs (21) and the inwardly offset sections (19) of the upper stacking shoulder (15) are limited by arcs. 4. A container according to claim 1 or 3 »characterized in that the tabs (21) are circumferentially spaced are distributed that every two adjacent lobes by one are separated according to the internally offset section (19), and that within these sections the distance between the upper stacking shoulder (15) from the container axis (17) is equal to the distance between the parts of the lower stacking shoulder (13) and the container axis is present, which is in vertical alignment with the inwardly offset sections stand. 5. Container according to one of claims 1 to 4-, characterized in that the upper stacking shoulder (15) on the contact sections (22) radially outwards protrudes over the lower stacking shoulder (13) by a distance, which is at least equal to the pick of the material from which the container is made. 6. Container according to one of claims Γ to 5 »thereby characterized in that the upper stacking shoulder (35) has a substantially triangular plan shape, in which the lobes are formed by the corners of the triangle. 20981 1/0296 7. Container according to one of claims 1 to 6, characterized characterized in that the projection (18; 38) projects into the interior of the container. 8. Container according to one of claims 1 to 7 »characterized in that the upper stacking shoulder (15) forms the edge of an upper surface lying in the plane of the upper stack shoulder, and that the contact sections (22) are formed by parts of the upper surface which extend outwards over those parts of the lower Stack shoulder ($ 1) protrude, which are in vertical alignment with the system sections. 9 · Containers having a bottom and a side wall extending upwardly and outwardly from the bottom, wherein the bottom is provided with a stacking projection, characterized in that the stacking projection (18) surrounds the axis (17) of the container (10) symmetrically, so that the stack projection is in the plane of the floor (12) lying lower stacking shoulder (15) comprises that the stacking projection is at an axial distance of the lower stacking shoulder and parallel to it arranged upper stacking shoulder (15) that this upper stacking shoulder an odd number of lobes (21) forms that k at least three such lobes are present and symmetrical are distributed around the container axis that the projection comprises a wall (16) which the lower stack shoulder with the upper stack shoulder connects, and that the wall of the stack projection in the area of the outer parts of all tabs is inclined outwards at an angle (A) relative to the container axis, so that each tab has a contact section (22) which can cooperate with the bottom (12a) of an adjacent container (10a). 10. Container according to claim 9 »characterized in that between each two adjacent tabs 209811/0296 (21) an inwardly offset section (19) of the upper stacking shoulder (15) is present, and that the wall (16) of the projection (18) in the region of the inwardly offset sections at an angle (B) in the sighting of the container axis (17) is inclined, 11. A container according to claim 9 or 10, characterized in that between the two adjacent ones The flap of the upper stacking shoulder is offset inwards Section is present, and that the wall of the projection in the area of these inwardly offset sections runs parallel to the container axis. 12. Container according to claim 10, characterized in that the lower stacking shoulder is circular and that the lobes and the inwardly offset sections are delimited by arcs of a circle. 13. Container according to claim 9 »characterized in that the upper stacking shoulder (35) has a has a substantially triangular plan shape, and that the Lobes are formed by the corners of the triangle. Container according to claim 9 »characterized in that the projection into the interior of the Be holder protrudes. 15 · Container according to claim 9, characterized in that the upper stacking shoulder is in the hand one above lying in the plane of the upper stacking shoulder ren corner. 209811/0286