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EP 1 476 368 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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06.07.2005 Bulletin 2005/27 |
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Date of filing: 20.02.2003 |
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International application number: |
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PCT/EP2003/001910 |
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International publication number: |
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WO 2003/078268 (25.09.2003 Gazette 2003/39) |
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COLUMN STABILISER FOR STACKED CANS
STABILISIERUNGSELEMENT FUER GESTAPELTEN DOSEN
STABILISATEUR DE COLONNE POUR RECIPIENTS EMPILES
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Designated Contracting States: |
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AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IT LI LU MC NL PT SE SI SK TR |
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Priority: |
15.03.2002 GB 0206154 22.03.2002 GB 0206815
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Date of publication of application: |
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17.11.2004 Bulletin 2004/47 |
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Proprietor: Imperial Chemical Industries PLC |
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London W1U 3AN (GB) |
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Inventor: |
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- KANACHOWSKI, Richard, Marian
Stockport,
Cheshire SK6 4AW (GB)
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References cited: :
DE-U- 9 003 544 NL-C- 1 004 725
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GB-A- 2 175 878
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] This invention relates to a column stabiliser and its use in making stable columns
of stacked objects of alternative sizes such as cans.
[0002] The problem with stacking cans vertically is that once the resulting column is more
than two or three cans high, the column becomes unstable and prone to collapse. The
slightest lateral force, for example someone accidentally bumping into or brushing
past the column, will cause it to topple over with the attendant risk of injury to
people nearby and spillage of the contents of the cans if the cans have press fit
lids. Such problems are particularly troublesome where large cans having press-fit
lids containing, for instance 2.5 or 5 litres of dense liquids, such as paint, are
stacked on the floor in a shop. Even attempting to remove a can from a stable column
can result in the column becoming dangerously unstable or collapsing altogether.
[0003] Past attempts to overcome this problem involved arranging cans not in single columns
but in a plurality of columns so that cans in adjacent columns contact each other
or are contiguous. In this way the columns support each other and the resulting compound
column of stacked cans is more stable. However, these compound columns can only be
built up to a height of three or four cans before they too become unstable. Adding
a rigid interlayer between the layers of cans, such as a platform of rigid card or
thin plywood makes a more stable base for the cans further up the column but this
still produces a column of inadequate stability beyond about four layers.
[0004] Careful analysis of the problem has led the Applicant to conclude that the interlayer
of the prior art reduces the problem of column instability, in compound columns up
to three or four cans high, by providing some resistance to lateral movement. This
resistance is a consequence of the frictional force between the cans and the surface
of the interlayer material combined with the weight of all the cans in the layer and
the support of cans in contact one with another. However, in order to stack cans in
compound columns of more than three or four layers high, it has been found that relying
on interlayers is insufficient.
[0005] Ideally, it is desirable to be able to stack cans of alternative sizes up to eight
or even twelve high, depending on their size, thus saving floor-space and enabling
retail consumers to select for themselves their choice of paint from a stable stack
of cans.
[0006] GB 2 175 878 discloses a prior art stabiliser, corresponding to the preamble of appended
claim 1.
[0007] It is an object of this invention to provide a column stabiliser enabling stable
compound columns of substantially cylindrical cans of alternative sizes to be built
of more layers than hitherto and without the need for the cans to be contiguous.
[0008] Accordingly there is provided a column stabilising grid for stabilising a plurality
of stacks of objects, the grid having obverse and reverse faces, the obverse face
having a plurality of first locating means each dimensioned to locate in use the base
of the first object and to resist lateral movement thereof, and a plurality of second
locating means each dimensioned to locate in use the base of a second, smaller alternative
object and to resist lateral movement thereof, wherein each second locating means
is encompassed by a first locating means, and the reverse face having a plurality
of stop means positioned to abut in use the top of an object to resist lateral movement
thereof, and characterised in that at least some of the second locating means are
located eccentrically within the respective first locating means.
[0009] Use of the grid enables a stable compound column comprising a number of stacks of
objects, optionally of alternative sizes to be constructed to a greater height than
could be achieved previously.
[0010] More preferably, at least some of the second locating means are located eccentrically
towards the periphery of the grid.
[0011] Conveniently the first and second locating means comprise walls extending from the
obverse face.
[0012] Each first locating means may comprise a substantially circular wall, and may consist
of a series of discontinuous wall segments.
[0013] Similarly, each second locating means may comprise a substantially circular wall,
and may consist of a series of discontinuous wall segments.
[0014] Preferably, the first locating means are contiguous, and a perimeter wall may bound
the first locating means.
[0015] Optionally, the column stabilising grid may further comprise smaller and smaller
third, fourth and so on locating means for smaller and smaller objects wherein each
of the smaller locating means is encompassed by the larger locating means.
[0016] In a preferred embodiment, the grid comprises seven first locating means arranged
in hexagonal form with one central locating means and six surrounding locating means.
[0017] The grid may further comprise one or more support elements extending between a second
locating means and the first locating means which encompasses it and/or another of
the second locating means.
[0018] Conveniently, in use a first object located in a first locating means rests on the
second locating means and the support elements, and a second object located in a second
locating means, rests on the obverse face of the grid.
[0019] Preferably, the stop means on the reverse face are aligned with the first locating
means on the obverse face, and at least one further stop means on the reverse face
which is aligned with at least one second locating means on the obverse face.
[0020] Conveniently, the stop means comprise walls depending from the reverse face.
[0021] The invention also provides a column comprising a plurality of stacks of objects,
wherein a column stabilising grid as described is located between adjacent layers
of objects in the stacks.
[0022] The invention will now be described in detail with reference to the accompanying
drawings in which:
Figure 1 is a perspective view of the obverse face of a column stabiliser in accordance
with a first embodiment of the invention;
Figure 2 is a perspective view of the reverse face of the column stabiliser of Figure
1;
Figure 3 is a plan view of the obverse face of a column stabiliser in accordance with
a second embodiment of the invention;
Figure 4 is a plan view of the reverse face of the column stabiliser of Figure 3;
and
Figure 5 is a cross section along the line AA of the column stabiliser of Figure 1.
[0023] Figure 1 is a perspective view from above of a column stabilising grid 1 in accordance
with a first embodiment of the invention. The grid 1 has a substantially hexagonal
perimeter wall 2 within which are located seven contiguous locating cells 3. The cells
3 are positioned in a hexagonal packing arrangement with a central cell 3a surrounded
by six outer cells 3b.
[0024] The locating cells may be arranged in many other ways and there may be fewer or greater
than seven. Examples of suitable arrangements include three cells arranged as a triangle
or four arranged as a square when viewed in plan.
[0025] Although the grid 1 could be formed with a continuous floor within the perimeter
wall 2, in this embodiment the floor 4 is provided with a number of circular and substantially
triangular cutouts 5a, 5b to save weight and materials.
[0026] Each locating cell 3 is defined by a primary locating means 6 which in this case
is a substantially circular upstanding wall. In this embodiment, the primary locating
wall 6 is discontinuous to save weight and materials and assist in manufacture. The
outer cells 3b each have a primary locating means 6 made up of a major arcuate segment
6a, and two minor arcuate segments 6b, 6c as shown. The major arcuate segment 6a merges
into the perimeter wall 2. The central cell 3a is defined by six minor arcuate wall
segments 6d.
[0027] Within each cell 3, a secondary locating means 7 is provided. For the central cell
3a this is a continuous circular wall concentric with the primary locating means 6.
For the outer cells 3b, in the embodiment shown in Figure 1, this takes the form of
a continuous circular wall eccentrically positioned within a respective primary locating
means 6, such that it merges into the primary locating wall segment 6a and the perimeter
wall 2.
[0028] In the second embodiment shown in Figure 3, the secondary locating means 7 of the
outer cells 3b are formed instead by a portion of primary locating means 6 extending
over less than 180° and an additional arcuate wall segment 7a extending over,greater
than 180° and having a leg 7b at each end adjoining the primary locating means 6 as
shown. This alternative configuration is employed for manufacturing purposes and it
will be appreciated that the primary and secondary locating means 6, 7 can be configured
in a variety of different ways.
[0029] In both embodiments, radial support ribs 8 join the second locating means 7 of each
outer cell 3b to the second locating means 7 of the central cell 3a, and to the primary
locating wall segments 6b and 6c.
[0030] The reverse face of the column stabilising grid 1 is generally similar for both embodiments,
as shown in Figures 2 and 4, having locating cells 9 defined by a primary locating
means 10 depending from the floor 4 in alignment with the primary locating means 6
on the upper surface of the grid 1. The primary locating means 10 are substantially
circular, discontinuous walls. At least one locating cell 9 preferably also includes
a secondary locating means 11. In the embodiment of Figures 4 this is a continuous
circular wall concentric with the primary locating means 10 defining the central cell
9a. However, in addition, or in the alternative, a secondary locating wall 11 could
be provided in one or more of the outer cells 9b. In that case, the secondary locating
means would be eccentric, in alignment with the respective secondary locating means
on the upper side of the grid 1.
[0031] As shown in Figure 5, the primary locating means 6 on the upper surface of the grid
1 are dimensioned to accommodate a desired first object 12, such as a 5 litre container
of paint, with a relatively close fit but with some play allowed to facilitate placement
of the container 12 within the cell 3. When the container 12 has been located within
the cell 3, it rests on the secondary locating wall 7 and the radial support ribs
8. The primary locating means 6 resists any significant lateral movement of the bottom
of the container 12.
[0032] The secondary locating means 7 is dimensioned to accommodate an alternative second,
smaller object 13 such as a 2.5 litre paint container, again with a relatively close
fit but with some play allowed to facilitate placement of the container 13. When the
container 13 has been located within the secondary locating means 7, it rests on the
floor 4 of the grid 1 and the secondary locating means 7 resists any significant lateral
movement of the bottom of the container 12.
[0033] The locating cells 3 may be arranged such that the distance between the first larger
containers 12 when positioned in the positive lateral locating means is either only
a few millimetres or many centimetres. Preferably the cans are separated by only a
few millimetres as this means that a minimum amount of floor space is occupied. The
smaller containers 13 will necessarily be separated by a greater distance because
of their smaller diameter.
[0034] In use, a first grid 1 is placed on a suitable stable supporting surface such as
the floor or a shelf. A plurality of containers are placed within the locating cells
3 on the upper side of the grid 1. A second grid 1 is then placed on top of the containers,
with each container positioned within a respective locating cell 9 on the lower side
of the grid 1. A second layer of containers can then be placed on top of the second
grid 1 in the locating cells 3 and so on, to build up a stable compound column.
[0035] The first layer of containers is preferably placed on a grid 1 rather than on the
floor, as this positively locates the base of the column and improves stability. However,
this first grid 1 could be omitted if desired.
[0036] The column may be built up of one size of container only, with each locating cell
3 receiving a container. If the larger size of container is used, each is located
within a primary locating means 6. If the smaller size of container is used, each
is located within a secondary locating means 7. If desired, each layer may have fewer
than seven containers. If so, preferably alternate outer cells 3b are filled to provide
the column with stability.
[0037] Alternatively, a mixed column of larger and smaller containers may be constructed.
Clearly, the larger containers are likely to be taller, in which case the second and
subsequent grids will contact only the tops of the taller containers. Therefore, for
stability it is preferable if the larger and smaller containers are arranged alternately
in the outer cells 3b.
[0038] In another alternative, a column may be built up of alternate layers of larger and
smaller containers.
[0039] For each container within the compound column, any significant lateral movement of
the bottom of the container is resisted by the first or second locating means 6,7
as appropriate to the size of the container. In addition, any significant lateral
movement of the top of the container is resisted by the primary locating means 10
acting as stop means. When the smaller size of container only is being used, those
cells 9 on the underside of the grid 1 which have only a primary locating means 10
allow more lateral movement of the containers but the secondary locating means 11
on the underside keeps the grid 1 in alignment with the others in the column. The
eccentric location of the secondary locating means 7 on the upper side of the grid
1 causes the smaller containers to be positioned adjacent to the peripheral wall 2,
where it merges with the primary and secondary locating means 6 and 7 on the upper
side, and where the primary locating means 10 merges with the perimeter wall 2 on
the under side. Thus, these wall portions act as stop members against lateral movement
of containers radially outward of the column.
[0040] The column stabiliser may be made of any material of sufficient strength to support
the weight of a compound column of containers. Examples of suitable materials include
metal, wood and plastic. Plastic materials are preferred due to their light weight
and ease of forming into complex shapes. Even more preferred are plastics selected
from polyethylene, polypropylene, acrylonitrile-butadiene-styrene copolymers and polystyrene.
Most preferred is high impact resistant polystyrene.
[0041] Although the present invention has been described in detail, it should be understood
that various changes, substitutions and alterations can be made without departing
from the scope of the invention as defined by the appended claims.
1. A column stabilising grid for stabilising a plurality of stacks of objects, the grid
having obverse and reverse faces, the obverse face having a plurality of first locating
means each dimensioned to locate in use the base of the first object and to resist
lateral movement, thereof, and a plurality of second locating means each dimensioned
to locate in use the base of a second, smaller alternative object and to resist lateral
movement thereof, wherein each second locating means is encompassed by a first locating
means, and the reverse face having a plurality of stop means positioned to abut in
use the top of an object to resist lateral movement thereof, and characterised in that at least some of the second locating means are located eccentrically within the respective
first locating means.
2. A column stabilising grid as claimed in claim 1, wherein at least some of the second
locating means are located eccentrically towards the periphery of the grid.
3. A column stabilising grid as claimed in any preceding claim, wherein the first and
second locating means comprise walls extending from the obverse face.
4. A column stabilising grid as claimed in claim 3, wherein each first locating means
comprises a substantially circular wall.
5. A column stabilising grid as claimed in claim 3 or claim 4, wherein each first locating
means comprises a series of discontinuous wall segments.
6. A column stabilising grid as claimed in any of claims 3-5, wherein each second locating
means comprises a substantially circular wall.
7. A column stabilising grid as claimed in any of claims 3-6, wherein at least some of
the second locating means comprise a series of discontinuous wall segments.
8. A column stabilising grid as claimed in any preceding claim, wherein the first locating
means are contiguous.
9. A column stabilising grid as claimed in any preceding claim, further comprising a
perimeter wall bounding the first locating means.
10. A column stabilising grid as claimed in any preceding claim, comprising seven first
locating means arranged in hexagonal form with one central locating means and six
surrounding locating means.
11. A column stabilising grid as claimed in any preceding claim, further comprising one
or more support elements extending between a second locating means and the first locating
means which encompasses it and/or another of the second locating means.
12. A column stabilising grid as claimed in claim 11, wherein in use a first object located
in a first locating means rests on the second locating means and the support elements.
13. A column stabilising grid as claimed in any preceding claim, wherein in use a second
object located in a second locating means rests on the obverse face of the grid.
14. A column stabilising grid as claimed in any preceding claim, wherein the stop means
are aligned with the first locating means on the obverse face.
15. A column stabilising grid as claimed in any preceding claim, further comprising at
least one stop means on the reverse face which is aligned with at least one second
locating means on the obverse face.
16. A column stabilising grid as claimed in any preceding claim, wherein the stop means
comprise walls depending from the reverse face.
17. A column comprising a plurality of stacks of objects, wherein a column stabilising
grid as claimed in any preceding claim is located between adjacent layers of objects
in the stacks.
1. Säulenstabilisierungsgitter zum Stabilisieren einer Vielzahl von Stapeln von Objekten,
wobei das Gitter eine Vorder- und eine Rückseite aufweist, wobei die Vorderseite eine
Vielzahl erster Anordnungsmittel aufweist, die jeweils dimensioniert sind, um beim
Gebrauch den Boden des ersten Objekts anzuordnen, und gegen eine Seitwärtsbewegung
davon Widerstand zu leisten, und eine Vielzahl von zweiten Anordnungsmitteln, die
jeweils dimensioniert sind, um beim Gebrauch den Boden eines zweiten, kleineren alternativen
Objekts anzuordnen, und um gegen eine Seitwärtsbewegung davon Widerstand zu leisten,
bei dem jedes zweite Anordnungsmittel von einem ersten Anordnungsmittel eingeschlossen
ist, und die Rückseite eine Vielzahl von Haltemitteln aufweist, die angeordnet sind,
um beim Gebrauch an das Oberteil eines Objekts anzugrenzen, um gegen eine Seitwärtsbewegung
davon Widerstand zu leisten, und dadurch gekennzeichnet, daß zumindest einige der zweiten Anordnungsmittel exzentrisch in dem jeweiligen ersten
Anordnungsmittel angeordnet sind.
2. Säulenstabilisierungsgitter-nach Anspruch 1, bei dem zumindest einige der zweiten
Anordnungsmittel exzentrisch in Richtung des Umfangs des Gitters angeordnet sind.
3. Säulenstabilisierungsgitter nach einem vorhergehenden Anspruch, bei dem die ersten
und zweiten Anordnungsmittel Wände umfassen, die sich von der Vorderseite erstrecken.
4. Säulenstabilisierungsgitter nach Anspruch 3, bei dem jedes erste Anordnungsmittel
eine im Wesentlichen kreisförmige Wand umfaßt.
5. Säulenstabilisierungsgitter nach Anspruch 3 oder Anspruch 4, bei dem jedes erste Anordnungsmittel
eine Reihe unterbrochener Wandsegmente umfaßt.
6. Säulenstabilisierungsgitter nach einem der Ansprüche 3 bis 5, bei dem jedes zweite
Anordnungsmittel eine im Wesentlichen kreisförmige Wand umfaßt.
7. Säulenstabilisierungsgitter nach einem der Ansprüche 3 bis 6, bei dem zumindest einige
der zweiten Anordnungsmittel eine Reihe unterbrochener Wandsegmente umfaßt.
8. Säulenstabilisierungsgitter nach einem vorhergehenden Anspruch, bei dem die ersten
Anordnungsmittel aneinandergrenzend sind.
9. Säulenstabilisierungsgitter nach einem vorhergehenden Anspruch, des Weiteren mit einer
Umfangswand, die die ersten Anordnungsmittel begrenzt.
10. Säulenstabilisierungsgitter nach einem vorhergehenden Anspruch, mit sieben Anordnungsmitteln,
die in einer hexagonalen Form mit einem zentralen Anordnungsmittel und sechs umgebenden
Anordnungsmitteln angeordnet sind.
11. Säulenstabilisierungsgitter nach einem vorhergehenden Anspruch, des Weiteren mit einem
oder mehreren Unterstützungselementen, die sich zwischen einem zweiten Anordnungsmittel
und dem ersten Anordnungsmittel, das es einschließt, und/oder einem weiteren der zweiten
Anordnungsmittel erstrecken.
12. Säulenstabilisierungsgitter nach Anspruch 11, bei dem beim Gebrauch ein erstes Objekt,
das in einem ersten Anordnungsmittel angeordnet ist, auf dem zweiten Anordnungsmittel
und den Unterstützungselementen ruht.
13. Säulenstabilisierungsgitter nach einem vorhergehenden Anspruch, bei dem beim Gebrauch
ein zweites Objekt, das in einem zweiten Anordnungsmittel angeordnet ist, auf der
Vorderseite des Gitters ruht.
14. Säulenstabilisierungsgitter nach einem vorhergehenden Anspruch, bei dem die Haltemittel
mit den ersten Anordnungsmitteln auf der Vorderseite ausgerichtet sind.
15. Säulenstabilisierungsgitter nach einem vorhergehenden Anspruch, des Weiteren mit zumindest
einem Haltemittel auf der Rückseite, das mit zumindest einem zweiten Anordnungsmittel
auf der Vorderseite ausgerichtet ist.
16. Säulenstabilisierungsgitter nach einem vorhergehenden Anspruch, bei dem die Haltemittel
Wände umfassen, die von der Rückseite herunterhängen.
17. Säule mit einer Vielzahl von Stapeln von Objekten, bei dem ein Säulenstabisierungsgitter
nach einem vorhergehenden Anspruch zwischen benachbarten Schichten von Objekten in
den Stapeln angeordnet ist.
1. Grille de stabilisation de colonne destinée à stabiliser une pluralité de piles d'objets,
la grille comportant des faces du dessus et du dessous, la face du dessus comportant
une pluralité de premiers moyens de positionnement dimensionnés chacun pour positionner
en utilisation la base du premier objet et pour résister à un déplacement latéral
de celui-ci, et une pluralité de seconds moyens de positionnement dimensionnés chacun
pour positionner en utilisation la base d'un second objet différent plus petit et
pour résister au déplacement latéral de celui-ci, où chaque second moyen de positionnement
est englobé par un premier moyen de positionnement, et la face du dessous comportant
une pluralité de moyens de butée positionnés pour venir en butée en utilisation avec
le dessus d'un objet afin de résister à son déplacement latéral, et caractérisée en ce qu'au moins certains des seconds moyens de positionnement sont positionnés de façon excentrée
à l'intérieur des premiers moyens de positionnement respectifs.
2. Grille de stabilisation de colonne selon la revendication 1, dans laquelle au moins
certains des seconds moyens de positionnement sont positionnés de façon excentrée
vers la périphérie de la grille.
3. Grille de stabilisation de colonne selon l'une quelconque des revendications précédentes,
dans laquelle les premiers et seconds moyens de positionnement comprennent des parois
s'étendant à partir de la face du dessus.
4. Grille de stabilisation de colonne selon la revendication 3, dans laquelle chaque
premier moyen de positionnement comprend une paroi pratiquement circulaire.
5. Grille de stabilisation de colonne selon la revendication 3 ou la revendication 4,
dans laquelle chaque premier moyen de positionnement comprend une série de segments
de paroi discontinus.
6. Grille de stabilisation de colonne selon l'une quelconque des revendications 3 à 5,
dans laquelle chaque second moyen de positionnement comprend une paroi pratiquement
circulaire.
7. Grille de stabilisation de colonne selon l'une quelconque des revendications 3 à 6,
dans laquelle au moins certains des seconds moyens de positionnement comprennent une
série de segments de paroi discontinus.
8. Grille de stabilisation de colonne selon l'une quelconque des revendications précédentes,
dans laquelle les premiers moyens de positionnement sont contigus.
9. Grille de stabilisation de colonne selon l'une quelconque des revendications précédentes,
comprenant en outre une paroi de périmètre limitant les premiers moyens de positionnement.
10. Grille de stabilisation de colonne selon l'une quelconque des revendications précédentes,
comprenant sept premiers moyens de positionnement agencés en une forme hexagonale
avec un moyen de positionnement central et six moyens de positionnement autour de
celui-ci.
11. Grille de stabilisation de colonne selon l'une quelconque des revendications précédentes,
comprenant en outre un ou plusieurs éléments de support s'étendant entre un second
moyen de positionnement et le premier moyen de positionnement qui l'entoure et/ou
un autre des seconds moyens de positionnement.
12. Grille de stabilisation de colonne selon la revendication 11, dans laquelle, en utilisation
un premier objet positionné dans un premier moyen de positionnement repose sur le
second moyen de positionnement et les éléments de support.
13. Grille de stabilisation de colonne selon l'une quelconque des revendications précédentes,
dans laquelle, en utilisation un second objet positionné dans un second moyen de positionnement
repose sur la face du dessus de la grille.
14. Grille de stabilisation de colonne selon l'une quelconque des revendications précédentes,
dans laquelle les moyens de butée sont alignés avec les premiers moyens de positionnement
sur la face du dessus.
15. Grille de stabilisation de colonne selon l'une quelconque des revendications précédentes,
comprenant en outre au moins un moyen de butée sur la face du dessous qui est aligné
avec au moins un second moyen de positionnement sur la face du dessus.
16. Grille de stabilisation de colonne selon l'une quelconque des revendications précédentes,
dans laquelle les moyens de butée comprennent des parois pendant à partir de la face
du dessous.
17. Colonne comprenant une pluralité de piles d'objets, où une grille de stabilisation
de colonne selon l'une quelconque des revendications précédentes est positionnée entre
couches adjacentes d'objets dans les piles.