FIELD
[0001] The present disclosure relates to cargo handling equipment. In particular, the disclosure
relates to containers used for bundling up items during transport and for temporary
storage. More precisely, the disclosure relates to a container according to the preamble
portion of claim 1.
BACKGROUND
[0002] Parceled goods have been traditionally transported by stacking the goods on pallets,
wrapping the unit with shrink wrap and loading the wrapped pallets onto trailers or
trucks. The traditional way of handling parceled freight has been deemed uneconomical
due to the labor intensity of packing pallets, extensive use of packing material,
such as shrink wrap and cardboard. Traditional pallets have also provided little protection
against brisk handling, which has resulted in damages and increased the cost of transport.
To tackle these problems, collecting cages have been introduced.
[0003] Collecting containers, such as cages, are typically stackable and foldable cages
made of high tensile steel that provide an attractive alternative to distribution
and storage of high volume goods. Collecting cages, cages in short, are usually handled
with a fork lift similarly to traditional pallets. Because the cages are stackable,
high volumetric efficiency may be achieved when transporting full cages. On the other
hand, because the cages are foldable, high volumetric efficiency is also achieved
when transporting empty cages. Furthermore, the robust structure of the cage protects
the cargo during handling. One such cage, or crate, is disclosed in
US 1164502 A. Furthermore, a container according to the preamble of claim 1 is known from
US 2003/0127456 A1.
[0004] While the folding option provides for outstanding volumetric efficiency, conventional
folding mechanisms may be cumbersome to use. While strong, steel is relatively heavy
as a construction material, whereby the folding action requires a fair degree of force.
It has been found particularly tricky to hold an already raised side wall up, while
lifting an adjacent wall up before securing the upright walls together.
[0005] There is therefore a need for an improved container that is not only volumetrically
efficient but also easy to use.
SUMMARY
[0006] The invention is defined by the features of the independent claim. Some specific
embodiments are defined in the dependent claims.
[0007] Accordingly, there is provided a folding container comprising a base, a first mount
on the base, a first side wall, and a translational hinge connecting the first side
wall to the first mount. The translational hinge facilitates rotational and translational
movement of the first side wall between an upright erected state and a folded state,
in which the first side wall extends in a generally parallel to the base. The container
has an upright lock featuring a peg on the first side wall and a catch on the mount.
The catch has a recess for receiving the peg of the first side wall to lock the first
side wall into the erected state. The recess is elongated, at least in part, in a
direction that is slanted in respect to the upright orientation.
[0008] Some embodiments may include one or more features from the following itemized list:
- the threshold is set to work against gravity;
- a bottom end of the catch is relieved substantially along the direction of elongation
of the recess;
- the mount extends from the base along the upright orientation;
- the mount comprises a body, which has a proximal end attached to the base and a distal
end opposing the proximal end;
- the mount comprises a support to the distal end of the body;
- the support is configured to receive another such container stacked onto the container;
- the base is quadrangular in shape with four such mounts, one provided to each one
of the four corners, wherein the first side wall connects a first pair of adjacent
mounts together;
- the container comprises a second side wall opposing the first side wall and being
connected to the base similarly to the first side wall through a translational hinge
between the second side wall and a respective second pair of adjacent mounts;
- the first side wall comprises a frame and a cover delimited by the frame;
- the cover comprises an opening for receiving the catch in the erected state of the
first side wall;
- the first and second side wall are permanently attached side walls,
- the container comprises a first removable side wall that is connected between the
first and second permanently attached side walls;
- the container comprises a second removable side wall that is connected between the
first and second permanently attached side walls and opposes the first removable side
wall;
- the container comprises a quick attachment mechanism between the first and/or second
removable side wall(s) and the first and second permanently attached side walls;
- the quick attachment mechanism is configured to allow the first and/or second removable
side wall(s) to be removably attached to the first and second permanently attached
side walls;
- the quick attachment mechanism comprises cooperating counterparts provided to the
frames of the adjacent first and second permanently attached side walls and the first
and/or second removable side wall(s);
- the first and/or second removable side wall(s) comprise a plurality of panels that
are connected to each other through a horizontal hinge for opening said side walls
in sequence;
- at least a top panel of the first and/or second removable side wall(s) comprise an
attachment mechanism cooperating with a frame of the adjacent first and second permanently
attached side walls for securing the panel into a closed state,
- frames of the first and second permanently attached side walls comprise support plates
for receiving to receive another such container stacked onto the container, when the
side walls are in the erected state.
[0009] Considerable benefits may be achieved with the novel concept.
[0010] The slanted catch provides for a smooth the transition of the folding side wall between
a folded and erected state. Accordingly, it is easy for the user of the container
to secure the side wall into the erected state and to fold the side wall down. The
slanted orientation will make the movement more fluent compared to traditional vertically
extending slots for receiving respective pins of existing folding mechanisms. This
is an ergonomic and occupational safety benefit becaise such side walls may be quite
heavy.
[0011] Furthermore, the slanted catch may include further relieved shapes, such as bottom
chamfer and/or a rounded lip to guide the peg into the recess for maximized convenience
and occupational safety.
BRIEF DESCRIPTION OF THE DRAWINGS
[0012] In the following certain exemplary embodiments are described with reference to the
accompanying drawings, in which:
- FIGURE 1
- illustrates a perspective view of a container in accordance with at least some embodiments
of the present disclosure;
- FIGURE 2
- illustrates a detail perspective view of a folding mechanism of the container of FIGURE
1 keeping a side wall in an erected state;
- FIGURE 3
- illustrates a detail perspective view of the folding mechanism of FIGURE 2 keeping
the side wall in a transitional state, and
- FIGURE 4
- illustrates a detail perspective view of the folding mechanism of FIGURE 2 keeping
the side wall in a folded state.
EMBODIMENTS
[0013] FIGURE 1 illustrates a container 100 in accordance with at least some embodiments
of the present invention in a fully assembled state, in which all side walls are erected
and in a closed state. The container 100 is a transport unit used in logistics. The
container 100 has a solid quadrilateral base 110 that is preferably elevated above
ground by means of runners that enable transport of the container 100 by means of
a forklift, for example. The base 110 may be fabricated from steel or aluminium alloy
for the sake of rigidity. Alternatively, instead of integrated metal runners, a metal
base may be attached to a wooden pallet by means of clamps or other affixers (not
illustrated).
[0014] Each of the four corners of the base 110 feature a mount 120, which serves two purposes.
Firstly, the mount 120 is used as a mounting point for a folding mechanism that enables
the folding action of permanently attached side walls. The illustrated example features
two such permanently attached side walls 130a, 130b and two removable side walls 160a,
160b. Secondly, the mount 120 acts as a pad for receiving another such container in
a stacked configuration, when the side walls are folded down and/or removed (not shown).
Accordingly, the mount 120 extends from the base 110 in a generally upright orientation,
which is practically the vertical, when the base 110 lies parallel to the ground,
which is assumed flat and horizontal. The tallness of the mount 120 is set to be equal
to or greater than the at least two side walls, preferably four side walls in folded
and/or removed state.
[0015] FIGURE 1 shows four such mounts 120 provided at the four corners of the container
100. In this context each similar element is denoted with a given reference numeral.
If the device comprises more than one of such an element, the elements are distinguished
between a suffix a, b, etc., where applicable. For example, the three mounts visible
in FIGURE 1 are marked as a first mount 120a, a second mount 120b, a third mount 120c.
The same logic applies throughout this description.
[0016] FIGURE 1 also shows four side walls 130, 160 that may be folded or removed to bring
the container from the deployed state shown in the FIGURES to a collapsed state, which
is not shown in the FIGURES. Two of the four side walls are permanently attached to
the base 110. These side walls are the first and second folding side walls 130a, 130b
that are provided on opposing sides of the base 110. The other two of the four side
walls may be removable side walls 160a, 160b that are provided on opposing sides of
the base 110 and between the two permanently attached side walls 130a, 130b.
[0017] According to the illustrated example, the permanently attached side walls 130a, 130b
feature a single panel and the removable side walls 160a, 160b feature a several panels
that are horizontally hinged to each other to act as gates. The panels of the removable
side walls 160a, 160b may be opened in sequence by first folding the upper panel down
to gain access to the top part of the inner volume of the container 100 and then removing
the side wall completely. The closing of the removable side wall works in reverse.
[0018] To facilitate multistage opening and closing, the container 100 has a quick attachment
mechanism 170 provided between the bottom panel of the removable side wall 160 and
the adjacent permanently attached side wall 130. For example, the frame of the permanently
attached side wall 130 may include a male counterpart, such as a pin, which receives
a female counterpart, such as a slot provided to a bracket, on the bottom panel of
the removable side wall 160. Naturally, the male/female configuration could be reversed.
Additionally, the top panel of the removable side wall 160 has a latch or comparable
attachment mechanism for closing the top panel in respect to the adjacent permanently
attached side walls 130a, 130b. In the illustrated example the attachment mechanism
features a horizontally sliding handle, which is conventional in the art. It is, however,
preferred that the attachment mechanism facilitating opening and closing of the top
panel forms a sufficient locking action, whereby the frame of the permanently attached
side walls 130a, 130b are preferably provided with a counterpart shape, such an opening
for receiving the latch or bolt on the top panel.
[0019] Let us now consider the folding mechanism acting between the mount 120 and permanently
attached side wall 130 in greater detail.
[0020] FIGURE 2 shows the side wall 130 in an erected state, in which it extends in a generally
upright orientation in respect to the base 110. The side wall 130 features a sturdy
quadrilateral frame 131, which delimits a cover 132. The cover 132 may, as is shown
in the FIGURES, take the form a mesh but other alternatives, such as a tarpaulin or
a plastic panel, are foreseen. The frame 131 has a bottom frame member 133, which
rests on a sleeper beam 111 of the base 110.
[0021] FIGURES 2 to 4 reveal the construction of the mount 120 in greater detail. The mount
120 features a body 121, which may, as depicted, take the form an upright profile.
The illustrated example features an L shaped profile aligned with the corner of the
base 110. Other shapes, such as two separate upright members, which are not connected
to form an L shape, are also foreseen but not illustrated in the FIGURES.
[0022] As best shown in FIGURE 4 the body 121 has on one flank a groove 141, which is elongated
in the upright dimension. The groove 141 acts as one counterpart of a translational
hinge 140, which enables not only rotation about the horizontal but also translation
in the vertical. The other counterpart of the hinge 140 is provided on the side wall
130. As is best shown in FIGURE 2 the second counterpart is an axle 142, which may
take the form of a simple bolt connecting the body 121 of the mount 120 and the frame
131 of the side wall 130. The axle 142 therefore provides a horizontal axis of rotation
for the side wall 130. However, because the hinge slot 141 is elongated in the vertical,
the hinge 140 also provides for translation of the axle 142 and, thus, the side wall
130 during transition of the side wall 130 between the folded state (FIGURE 4) and
the erected state (FIGURE 2) through an intermediate state (FIGURE 3).
[0023] The top end of the body 121 is provide with a support 122. The support 122 may take
the form of a simple plate, which is, for example, welded to the base 121. The support
122 has several functions. Firstly, the support 122 may receive thereon another such
container 100, be it in a deployed or collapsed state, in a stacked configuration.
Secondly, the support 122 provides a stacking bracket 123 for producing alignment
and side support for the stacked container. Thirdly, the support 122 provides lateral
support for the side wall 130 by featuring a cut-out, which may be seen behind the
stacking bracket 123 in FIGURE 4. Indeed, the cut-out guides the profile 131 of the
side wall 130 into the correct position when turning the side wall 130 into the erected
state. When the side wall 130 is in the erected state (FIGURE 2), the profile 131
slots into the cut-out of the support 122. The stacking bracket 123 provides lateral
support for the profile 131 of the side wall in the erected state.
[0024] FIGURES 2 to 4 also reveal the construction and cooperation between the counterparts
of an upright lock 150, which is provided between the mount 120 and the side wall
130 for locking the side wall 130 in the erected state. The purpose of the upright
lock 150 is to lock the side wall 130 into the erected state such that the side wall
130 will not fold down without provocation, whereby the user is free to manipulate
other components of the container 100 without holding the side wall 130 up.
[0025] Let us first consider the counterpart provided on the side wall 130. The side wall
130 may include a simple peg 151, which extends inward from the frame 131. The peg
151 may, as is shown, take the form a cylindrical protrusion that extends from the
frame 131 towards the center of the side wall 130. In other words, the peg 151 is
aligned with the axle 142 of the hinge 140. The counterpart may alternatively be constructed
as a different male counterpart, for example by varying the cross-sectional shape
and/or curvature of the protrusion.
[0026] Let us next consider the counterpart provided on the mount 120. The upright lock
150 features a catch 152, which may take the form a hook, C profile, or otherwise
open piece. According to the advantageous example shown in the FIGURES, the catch
152 is a simple piece welded to one flank of the body 121 neighbouring the grooved
flank. In other words the hinge 140 and the catch 152 are provided on different neighbouring
sides of the container 100. The catch 152 has an open recess 153. The recess 153 is
designed to receive and hold the peg 151 of the side wall 130. The recess is elongated
along a direction 155, which forms an angle α in respect to the upright 143, which
is the direction of elongation of the groove 141. The angle α is more than zero, i.e.
the groove does not extend in the vertical, and less than 90 degrees, i.e. the groove
does not extend in the horizontal. In other words, the recess is neither vertical
nor horizontal. Accordingly, the recess 153 is slanted or skewed to provide for a
fluent transition of the side wall 130 between the erected and folded state.
[0027] The catch 152 may be optimized further to facilitate such a fluent transition. For
example, the bottom part of the catch 152 may be relieved, such as chamfered, to guide
the peg 151 into alignment with the recess 153. Additionally or alternatively, the
opening of the recess 153 is defined on one side by a bottom lip 154, which is rounded
to provide for a fluent slotting action of the peg 151. The opening of the recess
153 is delimited, on the other side by the support 122. The lip 154 is preferably
set to provide for a threshold, over which the peg 151 must be lifted to clear the
catch 152. In particular, the lip 154 may feature an upright bulge, which exaggerates
the hooked shape of the catch 152. The translational hinge 140 is designed to allow
for vertical translation of the side wall 130 for the peg 151 to clear the lip 154
for popping the peg 151 out of the recess 153.
[0028] The deployed container 100 shown in FIGURE 1 may be collapsed as follows. First,
the top panels of the removable side walls 160a, 160b are folded down and the bottom
panels removed from between the permanently attached side walls 130a, 130b. The removed
side walls 160a, 160b may be placed flat on the base 110. Next, one of the permanently
attached side walls 130 is folded down by lifting and rotating the side wall 130 inward
to lift the peg 151 out of the catch 152. Thanks to the cylindrical shape of the peg
151 and the slanted recess 153 of the catch 152, the user simply needs to pull the
side wall 130 inwards toward the center of the container 100, whereby the slanted
surface of the catch 152 produces an upward vector to the movement thus automatically
lifting the side wall 130. By continuing the movement, the peg 152 will eventually
follow the catch surface past the lip 154, where after the side wall 130 is no longer
held by the catch 152. With the peg 151 cleared, the side wall 130 is rotated and
lowered down flat on the removed side walls 160. The same is repeated on the second
permanently attached side wall 130. With the second permanently attached side wall
130 folded down, the container 100 is collapsed.
[0029] Deployment of the container 100 is done in a reversed order. Again, the user need
not consciously lift and turn the side wall 130 to perform the locking action. Instead,
the slanted bottom surface and rounded lip 154 of the catch 152 force the peg 151
and, consequently, the side wall 130 upward enough for the peg 151 ride over the lip
154 and down into the recess 153. The translational hinge 141, 152 facilitates the
translation and rotation required for the passage of the peg 151 into the recess 153.
The manoeuvre occurs naturally for the user by simply turning the side wall 130 up
with the shape of the catch 152 and peg 151 guiding the side wall 130 into the required
path of movement.
[0030] It is to be noted that when the first permanently attached side wall 130 is folded
up, it is held in the upright orientation by the lip 154 preventing the peg 151 from
slipping out of the catch 152. Indeed, the lip 154 provides a threshold for keeping
the first side wall 130 in the erected state, whereby the operator is free to concentrate
on folding the other side wall 130 up. Finally, the removable side walls may be attached.
[0031] The container 100 as shown in the FIGURES could be varied in several ways.
[0032] For example, the container could include more than two, such as three or four permanently
attached side walls, whereby a folding mechanism as herein described could hinge two
of the side walls to the mount and a secondary folding mechanism (not illustrated)
could hinge the frames of two adjacent side walls to each other. Such a secondary
folding mechanism could take the form different to the folding mechanism as depicted
in FIGURES 2 to 4. For example, the permanently attached side walls 130a, 130b could
be provided with arc-like runners on the inner surface thereof for guiding the intermediate
side walls 160a, 160b between erected and folded state. Such runners are known, per
se. As the permanent side walls allow for vertical translation, the first and second
side wall 130a, 130b could be folded on top of the intermediate side walls 160a, 160b,
which may not include such a translating hinge but a traditional hinge with a single
degree of freedom.
[0033] According to another variant either intermediate wall or both intermediate walls
may be constructed as a gate or gates (not illustrated) that is/are vertically hinged
to the translationally hinged side walls 130a, 130b. The hinge could allow for a rotation
with a range of at least 270 degrees, whereby the gate(s) could be opened against
the outer face of the translationally hinged side wall(s) 130, 130b. The gate(s) could
there after be folded down or up together with the translationally hinged side wall(s)
130, 130b.
[0034] Any combination of the above-described variants is also foreseen.
[0035] It is to be understood that the embodiments of the invention disclosed are not limited
to the particular structures, process steps, or materials disclosed herein, but are
extended to equivalents thereof as would be recognized by those ordinarily skilled
in the relevant arts. It should also be understood that terminology employed herein
is used for the purpose of describing particular embodiments only and is not intended
to be limiting.
[0036] Reference throughout this specification to "one embodiment" or "an embodiment" means
that a particular feature, structure, or characteristic described in connection with
the embodiment is included in at least one embodiment of the present invention. Thus,
appearances of the phrases "in one embodiment" or "in an embodiment" in various places
throughout this specification are not necessarily all referring to the same embodiment.
[0037] While the forgoing examples are illustrative of the principles of the present invention
in one or more particular applications, it will be apparent to those of ordinary skill
in the art that numerous modifications in form, usage and details of implementation
can be made without the exercise of inventive faculty, and without departing from
the principles and concepts of the invention. Accordingly, it is not intended that
the invention be limited, except as by the claims set forth below.
[0038] The verbs "to comprise" and "to include" are used in this document as open limitations
that neither exclude nor require the existence of also un-recited features.
[0039] Furthermore, it is to be understood that the use of "a" or "an", i.e. a singular
form, throughout this document does not exclude a plurality.
REFERENCE SIGNS LIST
[0040]
| NO. |
FEATURE |
NO. |
FEATURE |
| 100 |
container |
141 |
groove |
| 110 |
base |
142 |
axle |
| 111 |
sleeper beam |
143 |
direction of elongation |
| 120 |
mount |
150 |
upright lock |
| 121 |
body |
151 |
peg |
| 122 |
support |
152 |
catch |
| 123 |
stacking bracket |
153 |
recess |
| 130 |
(permanently attached) side wall |
154 |
lip |
| 131 |
frame |
155 |
direction of elongation |
| 132 |
mesh |
160 |
(removable) intermediate side wall |
| 133 |
bottom frame member |
170 |
quick attachment mechanism |
| 140 |
translational hinge |
α |
angle |
1. A folding container (100) comprising:
- a base (110),
- a first mount (120a) (120) provided to the base (110),
- a first side wall (130a), and
- a translational hinge (140), which connects the first side wall (130a) to the first
mount (120a) and is configured to facilitate rotational and translational movement
of the first side wall (130a) in respect to the first mount (120a) during transition
between:
∘ an erected state, in which the first side wall (130a) extends from the first mount
(120a) in a generally upright orientation in respect to the base (110), and
∘ a folded state, in which the first side wall (130a) extends from the first mount
(120a) in a generally parallel orientation in respect to the base (110),
- an upright lock (150), which comprises:
∘ a peg (151), which is provided to the first side wall (130a), and
∘ a catch (152), which is provided to the first mount (120a) and comprises an elongated
recess (153) configured to receive the peg (151) during transition between the erected
and folded state of the first side wall (130a) and to provide a threshold for keeping
the first side wall (130a) in the erected state,
characterized in that the recess (153) is elongated, at least in part, in a direction (155) that is slanted
in respect to the upright orientation.
2. The container according to claim 1, wherein the threshold is set to work against gravity.
3. The container according to claim 1 or 2, wherein a bottom end of the catch (152) is
relieved substantially along the direction of elongation of the recess (153).
4. The container according to any one of the preceding claims, wherein the first mount
(120a) extends from the base (110) along the upright orientation.
5. The container according to any one of the preceding claims, wherein the first mount
(120a) comprises:
- a body (121), which has a proximal end attached to the base (110) and a distal end
opposing the proximal end, and
- a support (122) provided to the distal end of the body (121), which support (122)
is configured to receive another such container stacked onto the container (100).
6. The container according to any one of the preceding claims, wherein the base (110)
is quadrangular in shape with four such mounts (120, 120a, 120b, 120c), one provided
to each one of the four corners, wherein the first side wall (130a) connects a first
pair of adjacent mounts together.
7. The container according to any one of the preceding claims, wherein the container
(100) comprises a second side wall (130b) opposing the first side wall (130a) and
being connected to the base (110) similarly to the first side wall (130a) through
a translational hinge between the second side wall (130b) and a respective second
pair of adjacent mounts (120b, 120c).
8. The container according to any one of the preceding claims, wherein the first side
wall (130a) comprises a frame (131) and a cover (132) delimited by the frame (131),
which cover (132) comprises an opening for receiving the catch (152) in the erected
state of the first side wall (130a).
9. The container according to any one of the preceding claims, wherein the first and
second side walls (130a, 130b) are permanently attached side walls, wherein the container
(100) comprises a first removable side wall (160a) that is connected between the first
and second permanently attached side walls (130a, 130b).
10. The container according to claim 9, wherein the container (100) comprises a second
removable side wall (160b) that is connected between the first and second permanently
attached side walls (130a, 130b) and opposes the first removable side wall (160a).
11. The container according to claim 10, wherein the container (100) comprises a quick
attachment mechanism (170) between the first and/or second removable side wall(s)
(160a, 160b) and the first and second permanently attached side walls (130a, 130b)
that is configured to allow the first and/or second removable side wall(s) (160a,
160b) to be removably attached to the first and second permanently attached side walls
(130a, 130b).
12. The container according to claim 11, wherein the quick attachment mechanism (170)
comprise cooperating counterparts provided to frames of the adjacent first and second
permanently attached side walls (130a, 130b) and the first and/or second removable
side wall(s) (160a, 160b).
13. The container according to any one of the preceding claims 9 to 12, wherein the first
and/or second removable side wall(s) (160a, 160b) comprise a plurality of panels that
are connected to each other through a horizontal hinge for opening said side walls
in sequence.
14. The container according to any one of the preceding claims 9 to 13, wherein at least
a top panel of the first and/or second removable side wall(s) (160a, 160b) comprise
an attachment mechanism cooperating with a frame of the adjacent first and second
permanently attached side walls (130a, 130b) for securing the panel into a closed
state.
15. The container according to any one of the preceding claims 9 to 14, wherein frames
of the first and second permanently attached side walls (130a, 130b) comprise support
plates for receiving another such container stacked onto the container (100), when
the side walls (130a, 130b) are in the erected state.
1. Faltbehälter (100), umfassend:
- eine Basis (110);
- eine erste Halterung (120a), welche an der Basis (110) bereitgestellt ist,
- eine erste Seitenwand (130a); und
- ein Translationsscharnier (140), welches die erste Seitenwand (130a) mit der ersten
Halterung (120a) verbindet und dazu konfiguriert ist, eine Dreh- und Translationsbewegung
der ersten Seitenwand (130a) in Bezug auf die erste Halterung (120a) beim Übergang
zwischen:
- einem aufgerichteten Zustand, in welchem sich die erste Seitenwand (130a) von der
ersten Halterung (120a) in einer im Allgemeinen aufrechten Ausrichtung in Bezug auf
die Basis (110) erstreckt, und
- einem gefalteten Zustand, in welchem sich die erste Seitenwand (130a) von der ersten
Halterung (120a) in einer im Allgemeinen parallelen Ausrichtung in Bezug auf die Basis
(110) erstreckt, zu erleichtern,
- eine aufrechte Verriegelung (150), welche umfasst:
- einen Zapfen (151), welcher an der ersten Seitenwand (130a) bereitgestellt ist,
und
- eine Sperrklinke (152), welche an der ersten Halterung (120a) bereitgestellt ist
und eine längliche Aussparung (153) umfasst, welche dazu konfiguriert ist, den Zapfen
(151) während des Übergangs zwischen dem aufgerichteten und gefalteten Zustand der
ersten Seitenwand (130a) aufzunehmen und einen Riegel zum Halten der ersten Seitenwand
(130a) in dem aufgerichteten Zustand bereitzustellen,
dadurch gekennzeichnet, dass die Aussparung (153) zumindest teilweise in einer Richtung (155) langgestreckt ist,
welche in Bezug auf die aufrechte Ausrichtung schräg verläuft.
2. Behälter nach Anspruch 1, wobei der Riegel so eingestellt ist, dass er gegen die Schwerkraft
arbeitet.
3. Behälter nach Anspruch 1 oder 2, wobei ein unteres Ende der Sperrklinke (152) im Wesentlichen
entlang der Richtung der Längserstreckung der Aussparung(153) vertieft ist.
4. Behälter nach einem der vorstehenden Ansprüche, wobei sich die erste Halterung (120a)
von der Basis (110) entlang der aufrechten Ausrichtung erstreckt.
5. Behälter nach einem der vorstehenden Ansprüche, wobei die erste Halterung (120a) umfasst:
- einen Körper (121), welcher ein proximales Ende, welches an der Basis (110) befestigt
ist, und ein distales Ende aufweist, welches dem proximalen Ende gegenüberliegt, und
- eine an dem distalen Ende des Körpers (121) bereitgestellte Stütze (122), wobei
die Stütze (122) dazu konfiguriert ist, einen weiteren solchen Behälter aufzunehmen,
welcher auf den Behälter (100) gestapelt wird.
6. Behälter nach einem der vorstehenden Ansprüche, wobei die Basis (110) eine viereckige
Form mit vier solchen Halterungen (120, 120a, 120b, 120c) aufweist, von welchen jede
an einer der vier Ecken bereitgestellt ist, wobei die erste Seitenwand (130a) ein
erstes Paar benachbarter Halterungen miteinander verbindet.
7. Behälter nach einem der vorstehenden Ansprüche, wobei der Behälter (100) eine zweite
Seitenwand (130b) umfasst, welche der ersten Seitenwand (130a) gegenüberliegt und
ähnlich wie die erste Seitenwand (130a) durch ein Translationsscharnier zwischen der
zweiten Seitenwand (130b) und einem jeweiligen zweiten Paar benachbarter Halterungen
(120b, 120c) mit der Basis (110) verbunden ist.
8. Behälter nach einem der vorstehenden Ansprüche, wobei die erste Seitenwand (130a)
einen Rahmen (131) und eine durch den Rahmen (131) begrenzte Abdeckung (132) umfasst,
wobei die Abdeckung (132) eine Öffnung zum Aufnehmen der Sperrklinke (152) im aufgerichteten
Zustand der ersten Seitenwand (130a) umfasst.
9. Behälter nach einem der vorstehenden Ansprüche, wobei die erste und die zweite Seitenwand
(130a, 130b) dauerhaft befestigte Seitenwände sind, wobei der Behälter (100) eine
erste abnehmbare Seitenwand (160a) umfasst, welche zwischen der ersten und zweiten
dauerhaft befestigten Seitenwand (130a, 130b) verbunden ist.
10. Behälter nach Anspruch 9, wobei der Behälter (100) eine zweite abnehmbare Seitenwand
(160b) umfasst, welche zwischen der ersten und zweiten dauerhaft befestigten Seitenwand
(130a, 130b) verbunden ist und der ersten abnehmbaren Seitenwand (160a) gegenüberliegt.
11. Behälter nach Anspruch 10, wobei der Behälter (100) einen Schnellbefestigungsmechanismus
(170) zwischen der ersten und/oder zweiten abnehmbaren Seitenwand (160a, 160b) und
der ersten und zweiten dauerhaft befestigten Seitenwand (130a, 130b) umfasst, welcher
dazu konfiguriert ist, zu erlauben, dass die erste und/oder zweite abnehmbare Seitenwand
(160a, 160b) abnehmbar an der ersten und zweiten dauerhaft befestigten Seitenwand
(130a, 130b) befestigt sind.
12. Behälter nach Anspruch 11, wobei der Schnellbefestigungsmechanismus (170) zusammenwirkende
Gegenstücke umfasst, welche an Rahmen der benachbarten ersten und zweiten dauerhaft
befestigten Seitenwand (130a, 130b) und der ersten und/oder zweiten abnehmbaren Seitenwand
(160a, 160b) bereitgestellt sind.
13. Behälter nach einem der vorstehenden Ansprüche 9 bis 12, wobei die erste und/oder
zweite abnehmbare Seitenwand (160a, 160b) eine Vielzahl von Platten umfasst, welche
durch ein horizontales Scharnier miteinander verbunden sind, um die Seitenwände nacheinander
zu öffnen.
14. Behälter nach einem der vorstehenden Ansprüche 9 bis 13, wobei zumindest eine obere
Platte der ersten und/oder zweiten abnehmbaren Seitenwand (160a, 160b) einen Befestigungsmechanismus
umfasst, welcher mit einem Rahmen der benachbarten ersten und zweiten dauerhaft befestigten
Seitenwand (130a, 130b) zusammenwirkt, um die Platte in einem geschlossenen Zustand
zu sichern.
15. Behälter nach einem der vorstehenden Ansprüche 9 bis 14, wobei Rahmen der ersten und
zweiten dauerhaft befestigten Seitenwand (130a, 130b) Stützplatten zum Aufnehmen eines
weiteren solchen Behälters umfassen, welcher auf den Behälter (100) gestapelt wird,
wenn sich die Seitenwände (130a, 130b) im aufgerichteten Zustand befinden.
1. Récipient pliable (100) comprenant :
- une base (110),
- un premier montant (120a) disposé sur la base (110),
- une première paroi latérale (130a), et
- une charnière de translation (140), qui relie la première paroi latérale (130a)
au premier montant (120a) et est configurée pour faciliter un mouvement de rotation
et de translation de la première paroi latérale (130a) par rapport au premier montant
(120a) lors de la transition entre :
o un état déplié, dans lequel la première paroi latérale (130a) s'étend à partir du
premier montant (120a) dans une orientation généralement verticale par rapport à la
base (110), et
o un état plié, dans lequel la première paroi latérale (130a) s'étend à partir du
premier montant (120a) dans une orientation généralement parallèle par rapport à la
base (110),
- un verrou vertical (150), qui comprend :
o une cheville (151), qui est disposée sur la première paroi latérale (130a), et
o un loquet (152), qui est disposé sur le premier montant (120a) et comprend un évidement
allongé (153) configuré pour recevoir la cheville (151) pendant la transition entre
l'état déplié et l'état plié de la première paroi latérale (130a) et pour fournir
un seuil pour maintenir la première paroi latérale (130a) dans l'état déplié,
caractérisé en ce que l'évidement (153) est allongé, au moins en partie, dans une direction (155) qui est
inclinée par rapport à l'orientation verticale.
2. Récipient selon la revendication 1, dans lequel le seuil est réglé pour agir contre
la gravité.
3. Récipient selon la revendication 1 ou 2, dans lequel une extrémité inférieure du loquet
(152) est dégagée sensiblement le long de la direction d'allongement de l'évidement
(153).
4. Récipient selon l'une quelconque des revendications précédentes, dans lequel le premier
montant (120a) s'étend à partir de la base (110) le long de l'orientation verticale.
5. Récipient selon l'une quelconque des revendications précédentes, dans lequel le premier
montant (120a) comprend :
- un corps (121), qui présente une extrémité proximale fixée à la base (110), et une
extrémité distale opposée à l'extrémité proximale, et
- un support (122) disposé sur l'extrémité distale du corps (121), lequel support
(122) est configuré pour recevoir un autre pareil récipient empilé sur le récipient
(100).
6. Récipient selon l'une quelconque des revendications précédentes, dans lequel la base
(110) est de forme quadrangulaire avec quatre pareils montants (120, 120a, 120b, 120c),
un disposé à chacun des quatre coins, dans lequel la première paroi latérale (130a)
relie une première paire de montants adjacents ensemble.
7. Récipient selon l'une quelconque des revendications précédentes, dans lequel le récipient
(100) comprend une seconde paroi latérale (130b) opposée à la première paroi latérale
(130a) et qui est reliée à la base (110) de la même manière que la première paroi
latérale (130a) au moyen d'une charnière de translation entre la seconde paroi latérale
(130b) et une seconde paire respective de montants adjacents (120b, 120c).
8. Récipient selon l'une quelconque des revendications précédentes, dans lequel la première
paroi latérale (130a) comprend un cadre (131) et un couvercle (132) délimité par le
cadre (131), lequel couvercle (132) comprend une ouverture pour recevoir le loquet
(152) dans l'état déplié de la première paroi latérale (130a).
9. Récipient selon l'une quelconque des revendications précédentes, dans lequel les première
et seconde parois latérales (130a, 130b) sont des parois latérales fixées de manière
permanente, dans lequel le récipient (100) comprend une première paroi latérale amovible
(160a) qui est reliée entre les première et seconde parois latérales fixées de manière
permanente (130a, 130b).
10. Récipient selon la revendication 9, dans lequel le récipient (100) comprend une seconde
paroi latérale amovible (160b) qui est reliée entre les première et seconde parois
latérales fixées de manière permanente (130a, 130b) et est à l'opposé de la première
paroi latérale amovible (160a).
11. Récipient selon la revendication 10, dans lequel le récipient (100) comprend un mécanisme
de fixation rapide (170) entre les première et/ou seconde parois latérales amovibles
(160a, 160b) et les première et seconde parois latérales fixées de manière permanente
(130a, 130b) qui est configuré pour permettre aux première et/ou seconde parois latérales
amovibles (160a, 160b) d'être fixées de manière amovible aux première et seconde parois
latérales fixées de manière permanente (130a, 130b).
12. Récipient selon la revendication 11, dans lequel le mécanisme de fixation rapide (170)
comprend des contreparties coopérantes disposées sur des cadres des première et seconde
parois latérales adjacentes fixées de manière permanente (130a, 130b) et les première
et/ou seconde parois latérales amovibles (160a, 160b).
13. Récipient selon l'une quelconque des revendications précédentes 9 à 12, dans lequel
les première et/ou seconde parois latérales amovibles (160a, 160b) comprennent une
pluralité de panneaux qui sont reliés les uns aux autres au moyen d'une charnière
horizontale pour ouvrir lesdites parois latérales en séquence.
14. Récipient selon l'une quelconque des revendications précédentes 9 à 13, dans lequel
au moins un panneau supérieur des première et/ou seconde parois latérales amovibles
(160a, 160b) comprend un mécanisme de fixation coopérant avec un cadre des première
et seconde parois latérales adjacentes fixées de manière permanente (130a, 130b) pour
fixer le panneau dans un état fermé.
15. Récipient selon l'une quelconque des revendications précédentes 9 à 14, dans lequel
des cadres des première et seconde parois latérales fixées de manière permanente (130a,
130b) comprennent des plaques de support pour recevoir un autre pareil récipient empilé
sur le récipient (100), lorsque les parois latérales (130a, 130b) sont dans l'état
déplié.