Supporting structure for concurrently supporting a plurality of containers for substances for pharmaceutical, medical or cosmetic applications, and transport structure comprising the same
Abstract
A supporting structure for concurrently supporting a plurality of containers for substances for pharmaceutical, medical or cosmetic applications, comprises a plurality of receptacles. The receptacles are arranged in a regular arrangement, are formed by circumferential side-walls, and an upper side of the supporting structure is formed as a plate-shaped carrier. The receptacles are polygonal in shape when viewed in a plan view. A side-wall is formed as a common partition wall between respective two directly adjacent receptacles of the plurality of receptacles. The receptacles can be directly adjacent to each other, which enables optimum packing density, especially with a hexagonal basic shape of the receptacles. Due to the shared partition wall, filigree, double-walled structures can be effectively avoided, which considerably simplifies production by injection molding from a plastic material. Thereby, also a very high inherent stiffness of the supporting structure can be achieved.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A supporting structure for concurrently supporting a plurality of containers for substances for pharmaceutical, medical or cosmetic applications, the supporting structure comprising:
a plurality of receptacles configured to receive the containers, the receptacles being arranged in a regular arrangement and formed by side-walls which are each of circumferential construction, the receptacles being polygonal in shape when viewed in a plan view, a side-wall is formed as a common partition wall between respective two directly adjacent receptacles of the plurality of receptacles; and an upper side formed as a plate-shaped carrier, the side-walls and the receptacles projecting perpendicularly from the plate-shaped carrier.
2 . The supporting structure of claim 1 , wherein a height of the respective common partition wall corresponds substantially to an axial length of the two directly adjacent receptacles and the respective common partition wall is formed from a solid material over at least 80% of this height.
3 . The supporting structure of claim 2 , wherein a plurality of common partition walls is formed by a plurality of the side-walls and the common partition walls, viewed in a cross-section, are each formed in one piece and without perforations.
4 . The supporting structure of claim 1 , wherein the side-walls of the receptacles are each formed as flat partition walls and the side-walls of directly adjacent receptacles converge in a connecting region which extends in each case in a longitudinal direction of the receptacles and is arranged in a corner region of the respective receptacles.
5 . The supporting structure of claim 1 , wherein the receptacles are each hexagonal in shape when viewed in a plan view and the receptacles are arranged in a regular arrangement directly adjacent to one another with hexagonal symmetry.
6 . The supporting structure of claim 1 , wherein the receptacles are each octagonal in shape when viewed in a plan view, wherein four adjacent receptacles arranged in a rhombic arrangement each enclose a central connecting portion with a thickness that is greater than a thickness of the common partition walls.
7 . The supporting structure of claim 6 , wherein the central connecting portions each enclose a cavity extending in a longitudinal direction of the adjacent receptacles.
8 . The supporting structure of claim 1 , wherein a plurality of apertures is formed in the upper side of the plate-shaped carrier, for positioning the supporting structure by correspondingly formed positioning protrusions on an associated receptacle of the supporting structure.
9 . The supporting structure of claim 8 , wherein the apertures are formed as circular openings and wherein frustoconical protrusions, which enclose the openings, are formed on an underside of the plate-shaped carrier.
10 . The supporting structure of claim 1 , wherein upper ends of the side-walls facing the upper side of the supporting structure have an arcuately concave curved course.
11 . The supporting structure of claim 1 , wherein guide ribs are formed on the side-walls and extend in a longitudinal direction of the receptacles.
12 . The supporting structure of claim 11 , wherein lead-in bevels are formed at upper ends of the guide ribs, which are inclined relative to the guide ribs.
13 . The supporting structure of claim 11 , wherein the guide ribs are arranged in corner regions of the receptacles, wherein at least at lower ends of the guide ribs a respective flattened portion is provided with corner regions that are rounded.
14 . The supporting structure of claim 11 , wherein the guide ribs protrude inwardly into the receptacles in a direction towards a geometric center of the respective receptacle.
15 . The supporting structure of claim 1 , wherein at least one holding portion configured to hold the containers in the receptacles is provided at lower ends of the receptacles, the holding portions being formed as holding protrusions each of which protrudes radially inwards into the associated receptacle.
16 . The supporting structure of claim 1 , wherein lower ends of the receptacles each merge into a circular end ring with a central opening.
17 . The supporting structure of claim 16 , wherein lower ends of the side-walls of the receptacles jointly span a plane extending in parallel with an upper side of the supporting structure, the end rings projecting beyond the plane jointly spanned by the lower ends of the side-walls.
18 . The supporting structure of claim 17 , wherein an outer diameter of the end rings is smaller than a minimum opening width of the receptacles on an upper side of the supporting structure, so that a plurality of supporting structures of identical configuration are arrangeable in a stacked arrangement in which the end rings of an upper supporting structure are inserted into upper ends of the receptacles of an underneath lower supporting structure.
19 . The supporting structure of claim 18 , wherein spacer members are provided on an underside of the supporting structure to mechanically limit a depth of insertion of the end rings of an upper supporting structure into the upper ends of the receptacles of the underneath lower supporting structure.
20 . A supporting structure for concurrently supporting a plurality of containers for substances for pharmaceutical, medical or cosmetic applications, the supporting structure comprising:
a plurality of receptacles configured to receive the containers, the receptacles being arranged in a regular arrangement and formed by side-walls which are each of circumferential construction, the receptacles being polygonal in shape when viewed in a plan view, a plurality of the side-walls being formed as common partition walls between respective two directly adjacent receptacles of the plurality of receptacles, the common partition walls, viewed in a cross-section, each being formed in one piece and without perforations, lower ends of the receptacles each merging into a circular end ring with a central opening, lower ends of the side-walls of the receptacles jointly spanning a plane extending in parallel with an upper side of the supporting structure, the end rings projecting beyond the plane jointly spanned by the lower ends of the side-walls; an upper side formed as a plate-shaped carrier, the side-walls and the receptacles projecting perpendicularly from the plate-shaped carrier; and a plurality of guide ribs formed on the side-walls in corner regions of the receptacles and extending in a longitudinal direction of the receptacles.
21 . A transport structure, consisting of:
a supporting structure comprising a plurality of receptacles configured to receive the containers, the receptacles being arranged in a regular arrangement and formed by side-walls which are each of circumferential construction, an upper side of the supporting structure being formed as a plate-shaped carrier, and the side-walls and the receptacles projecting perpendicularly from the plate-shaped carrier, the receptacles of the supporting structure being polygonal in shape when viewed in a plan view, a side-wall is formed as a common partition wall between respective two directly adjacent receptacles of the plurality of receptacles; and a plurality of containers for substances for pharmaceutical, medical or cosmetic applications held by the supporting structure such that the containers are accommodated at least in sections in the receptacles of the supporting structure.
22 . The transport structure of claim 21 , wherein a height of the respective common partition wall corresponds substantially to an axial length of the two directly adjacent receptacles and the respective common partition wall is formed from a solid material over at least 80% of the height.
23 . The transport structure of claim 22 , wherein a plurality of side-walls are formed as common partition walls and the common partition walls, viewed in a cross-section, are each formed in one piece and without perforations.
24 . The transport structure of claim 21 , wherein the side-walls of the receptacles are each formed as flat partition walls and the side-walls of directly adjacent receptacles converge in a connecting region which extends respective in a longitudinal direction of the receptacles and is arranged in a corner region of the respective receptacles.Join the waitlist — get patent alerts
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