CA1068223A - Collapsible container - Google Patents

Abstract

ABSTRACT
A collapsible container of the open-platform type for containing goods comprises a generally rectangular platform base having a stub corner post at each corner of the platform base. At its upper end, each corner post has means for coupling it to a bottom corner portion of a superimposed container. A corner post is pivotally connected to each stub corner post about an axis substantially parallel to the longer side of the base for movement from a folded-down position in which it lies below the level of the tops of the stub corner posts, through a vertical position into a position slightly beyond the vertical to enable bracing means to be swung upwards and coupled between the two corner posts at each of the two ends of the frame to hold them in their vertical positions. The tops of the corner post also carry coupling means to enable them to be coupled in their vertical position to the underside of a similar container, the bracing means and the pivotal connections then ensuring that the corner posts remain vertical despite the normal racking loads.

Description

BACKGROUND OF THE INVENTION
This invention relates to collapsible containers of the open-platform type in which goods to be transported can be placed on the platform base of a container, the containers belng capable of being stacked for transport one on top of another either in the loaded condition or in a collapsed;
unloaded condition.
PRIOR ART
Containers of this kind are known for example from U.S.
Specification No. 3,807,581 (Nichols, April 30th, 1974) and 3,402,845 tEriksson, September 24th, 1968).
OBJ ECT OF THE INVENTION . .An object of the invention is to provide a collapsible con-- talner of the open-platform type which, both when erected and when collapsed is capable of meeting International Standards in respect of its ability to support a stack of superimposed containers and which when erected will provide an unobstruc~ed X loading space between structures at opposite ends of the platform so that loads of the full width of the container, the full height of the container and of the full length from one end structure to the other can be carried in the container, while , .~i ~i, a plurality of thé containers when empty can be collapsed, ` secured together and transported within the space required by : .' one erected container. ;-;~ BRIEF DESCRIPTION OF THE INVENTION
.
J~j According to the invention there is provided a collapsible ;~ container of the open-platform ~ype for conveying goods, said çontainer comprising a generally rectangular platform base, a stub corner post upstanding at each corner of the platform base, ~30~ a corner post pivotally connected to each stub corner post ~.

1 . ~ . .. ..

~Q68ZZ3 about an axis substanti211y parallel to the lon~er side of the base for pivotal movement independently of the other three corner posts from a folded-down position, in which it rests either on the base or on the other folded-down corner posts at that end of the base, through a vertical position into a position beyond the vertical, and bracing means at each end of the base for detachably holding the two corner posts at the respective sides vertical, with the bracing means substantially coplanar with their associated corner posts.
Advantageously, the articulation of each corner post to its stub corner post comprises a pivotal connection : . .
of axial length equal to the width of th~ corner post as --~
measured in the length direction i.e. that of the longer side of the platform. This ensures stiffness of the corner post assembly against racking forces in the ~; length direction of the containar.
~: .

;~j :

~ , ' :

?j ,;

' : ,j i~ .

~068ZZ3 ` I
Preferably, the bracing mean`s are detachably securable to the corner posts at positions adjacent their ' upper ends. The bracing means may include a tie which in operation is secured to the two corner posts adjacent their upper ends and extend directly between them. In the presently preferred form, the bracing means comprises a triangular frame one side of which forms the tie while the opposite apex cooperates with abutment means on the base at least to limit movement of the apex transversely of the length direction.
Conveniently, the frame is held captive to the base for example by an articulation between the base and the frame near the apex so that the frame can be swung down onto the base when collaps,ing the container. Preferably, the , .. .. . .
~ articulation is slack and separate from the abutment , `.',1 ~;~ means so that no loads are transmitted through it in the ,~.' erected position, particularly under transverse racking 1 .
, forces.
In alternate embodiments, the frame may be a full -, panel where appropriate the thrust points between the frame and the base may be in the region of the stub corner posts, for example at the articulations between the corner posts and their stub corner posts.
' An embodiment of the invention will now be described ` '~It ~ by way of example with reference to the accompanying ~ drawings, in which:-:~, ,.. ~ .~ ' _ ~ _ ' ~ : , ,.

,~: . . .. :., .. ': ., : ,. , . : , .. . : - , .
.. : , .. ` . . . .. . . . . , . : . . , 1~682Z3 Figure 1 is a plan view of a collapsible container in accordance with the invention shown in the erected state, .
~- Figure 2 is a side elevation view of the container : shown in Figure 1. ~ .
Figure 3 is an end elevational view of the container shown in Figure 1, in the erected condition, .
Figure 4 is an end elevational view of the container ; in the collapsed condition with a second collapsed container lG secured on top of it, the second container being shown ln broken lines, .
.` Figure 5 shows portions of Figures 3 and 4 on an .
, .~ . .
-~- enlarged scale, ?' ~: . Figures 6 and 7 are cross-sections on the lines VI- -VI and ~II-VII respectively of Figure 5, Figure 7 is a perspective view of the lower end of ',A"~ the bracing frame, and , Figure 8 shows the arrangement for latching an ~ 1 ~
j,'! upper end of the bracing frame to the upper part of a corner post in the erected condition of the container.
The container shown in the drawings comprises a . platform base 1 which, as can be seen in Figure 1, is rectangular in outline and has a fabricated steel frame . including side members 2 and end members 3. Timber decking 4 is carried on joists (not shown for reasons of clarity) 1 which extend between the side members 2. The side and end 5 _ 1 - .
, ,~ - . .
. " ~ , ~068Z23 members 2 ana 3 are of substantial box-section construction and together with the joists provide the platform base 1 with sufficient rigidity to carry the designed load on the container, for example when the container-is lifted by a sling attached to each corner of the container or by~the lifting fork of a fork-lift truck engaged in transverse passageways 5 (Figure 2) in the platform base 1. A
further pair of fork-lift passageways 6 enables ~he con~ainer when empty to be lifted by a smaller size of fork-lift ~ 10 truck. . .
~ he platform base 1 conforms to~I.SØ Standards in respect of its dimensions and load carrying capacity. The side and end members 2 and 3 are formed with square-section :
- sockets for stanchions when the latter are required to .. ,,~ , .
. assist in securing cargoes such as round steel bars. In ... .
- addition, the side and end members have roping points 8 ; formed by loops of steel rods welded to the side and end ., . members 2 and 3.
. The platform base 1 has a stub corner post 9 which pro~ects to a short distance upwards above the top surface " I . .
~ of the decking 4. At ~ts upper and lower ends, each stub .~ corner post 9 has upper and lower corner castings 11 and 12 by which the container may be secured to I.S.o.
Standard containers above or below the container.
. In horizontal cross-section, each stub corner post 9 is longer in the length direction of the container (i.e. in the direction o~ the sides 2) than in the transverse f~ ~ - 6 -. . :
- :1`

, , : . - ,, . : ~,, . , , : .: ,- : . . .

` iO68223 direction (i.e. parallel to the ends 3~. A corner post 13 is pivotally mounted on each stub corner post 9 by means of a massive hinge pin 14 the axis of which is horizontal and substantially parallel to the side members 3. At its upper end, each corner post 13 carries a standard corner casting 15 which can accordingly be secured to the underside of superimposed I.S.O. Standard container.
The lower end of each corner post 13 is secured to the hinge, pin 14 by means of hinge plates 16 and 17 (see particularly Figures 4 and 6) welded to the narrower faces of the respective corner post 13. The hinge pin 14 passes through holes in the lower ends of the hinge plates 16 and 17 and its in board end has a washer 18 welded to it to form a locating flange while its outer board end is ~lush with the outer face of the hinge plate 17 and is locked to the outer hinge plate 17 by means of a grub screw 19 located ..
in a tapped hole formed half in the hinge pin 14 and half in the hinge platé 17. The intermediate portion of the , ,.~- .
,~ hinge pin 14 is free to tùrn in a bore in the stub corner 20 post 9 which provides adequate supporting surfaces for the hinge pin particularly in the regions adjacent the hinge .~. , .
plates 16 and 17. For this purpose, the stub corner post 9 ls reinforced in this region by plates 21 and 22 welded to ~ the faces of the stub corner post 9.
;' ~J . The hin~e plates 16 and 17 space the lower end of the corner post 13 a short distance above the top face of the _ .~ ~
d ~ .
. .~ .

-1 .

~ ' ' i" . ' ' '' ''' " " ' ' "" ' ` " ' " ' " ' "` , ' ' ' ~'' .; ' '' ' , ~ . ` ` "' "; " '`" '' ' . .', ' ' . ' corner castinc~ 11 at the top of the stub corner post 9 when the corner ~ost 13 is upright so that the corner post 13, and any load carried by it, s transmitted to the stub corner post 9 solely through the hinge pin 14. As shown in Figure 3, the corner post 13 can in fact be swung through the vertical position to an outwardly inclined position shown at 13b in Figure 3, this position being determined by a s,top 23 welded to the hinge plate 16 in a position to abut the plate 21 when the corner post 13 reaches its position 13b.
The hinge plates 16 and 17 are spaced sufficiently far apart to ensure, in conjunction with the massive construction of the hinge pin 14, that the corner posts 13 can withstand horizon,tal racking forces in the length .
direction, as prescribed by the I.S.O. Standards. In order to secure the corner posts in vertical positions in the erected condition of the container, and to brace the container transversely so that it can meet the prescribed , .
~, sitandard tests for transverse racking loads, an equilateral triangular bracing frame 25 is provided for each ',~,i end of the container. The bracing frame is fabricated ~::, from lengths of square-section tubing to which are welded `'Ir~ appropriate gusset plates 26 and 27. One tubular element is: , .
28 of each bracing frame orms a tie between upper portlons of the two c,orner posts 13 and is connected at ~: ~ ,s ~
each end to the respective corner post by a sliding bolt ~s~ : arrangement shown in detail in Figure 8. For this purpose, . ,- , .

. i ~ : ~ , .

" lQ68Z23 the top member 28 of the bracins frame projects beyond the gusset plate ~6 and has a vertically orientated borè to receive a locking bolt 29 which is vertically slidable : in aligned bores in plates 30a, 30b, 30c and 30d welded to the corner post 13. The bolt 29 has a handle 29h and the plates 30a and 30b have lugs 31 for holding the handling in upper and lower positions in ~hich the top member 28 is respectively freed and held captive.
The two downwardly inclined members 32 of the bracing frame 25 are joined at the lower apex of the frame by the gusset plates 27 one of which has a cranked and slotted extensio~ 33 carrying at its free end a pair of pin portions 34 which are loosely held captive in loops ', 35 welded into the corner of a step formation in the end member 3. In this way, the bracing frame 25 is held captive to the end member 3 while being capable of being swung between a vertical position and a substantially horizontal stowed position in which it lies on the decking 4. In the vertical position of the bracing frame 25, a tongue 36 on the end member 3 projects upwards through the slots 37 in the cranked portion 33 with a working clearnace. The tongue 36 is reinforced by ,, , ~1 horizontal plates 38 welded to it and to the end member 3 and limits horizontal movement of the gusset plate 27a and thus of the lower apex of the bracing frame 25. This in 3~ ~ ~, turn effectively limits deformation of the parallelogram g _ " ~ ` "' ` ' . ~ .

~ormed by the two corner posts, the platform base and the top bracing member 28 to a very small magnitude corresponding to the working clearance between the tongue 36 and the slot 37~ However, vertical movement between the tongue 36 and the slot 37 is not limited so that substantially no vertical force components are transmitted between the lower apex of the bracing frame and the base member 3. Instead, all vertical components are transmitted through the corner posts and their hinges and hence through the stu~ corner posts to the bottc.(n corner castings 12.
In use, the container in its erected form has the shape shown in full lines in Figures 1 to 3. As previously mentioned, the whole of the space between the end structures formed by a pair of corner posts 13 and their bracing frame 25, is available for loading. For example, flat boards ., ; equal in width to the transverse width of the platform base . 1 and of length up to the distance between the hinge plate 16 at opposite ends of the container may be loaded on the platform base without exceeding the I.S.O. dimensional : 20 standards. Since the platform base will be supported on ., . a lower container through the four lower corner castings 12, some slight downward flexing of the container base . . . .
c may be expected when fully loaded. Since it is important , -that top corner casting 15 at opposite ends of the container should be at the correct distance apart in the ~. .
:. loaded state of the container to enable a further container ,. ~ , .

, ~ - 10 -.
`~'': ' ' .

: - -- ~: . . . . - , . :
. ~ : . : . .
:. - , ~, .

~ 068ZZ3 to be secured to tnem, it may be found desirable to tilt the axes of the hinge pin slightly so that the corner posts, as seen from the side as in Figure 2, are inclined slightly outwardly. Alternatively, the inner hinge plate 16 may be set slightly further down its corner post 13 than the out board hinge plate 17 to provide the required slight outward lean in the length direction of the ; container. In this case, the axis of each pin 14 can be horizontal, but should be set at a slight angle to the length direction of the container to ensure that in the collapsed condition of the container shown in Figure 4, the top casting 15 does not project beyond the end plane of the container as determined by the end plane of the bottom corner ~ 1 ~; castings 12~
.. , s When it is desired to collapse an erected container ~ after the latter has been unloaded, all that is necessary is .~; . .
to collapse the two end structures. Each end structure , - is collapsed by first sliding the two bolts 29 to their ~" uppermost positions in their corner posts 13 with their , 20 angles 29h resting on the uppermost plate 30a. As each ~` bolt 29 is lifted, its corner post 13 is tilted outwards to ~ the position shown at 13b in Figure 3 where it will be ;~ clear of the end of the top member 28 and further unable to drop inwards accidentally onto the container base. ~en both bolts have been released from the top member 28, the bracing frame 25 is lowered onto the container base 1 into -:1068223 the position shown in broken lines in Figure 1. ~ext, each corner post 13 can be brought back from the position 13b through the vertical position and lowered. The first corner post to be lowered is allowed to descend until its top casting 15 rests on a plate 41 adjacent the opposite bottom corner casting 12. The second, opposite corner post is then lowered until its top casting 15 rests on the out board hinge plate 17 of the first corner post to be lowered. In order to ensure that the top casting 15 of i the second corner post to be lowered lies below ~he top casting 11 of the stub corner post, the hinge plates 16 and 17 are preferably formed with the "dog-leg" shape shown particularly in Figures 3 and 4, the hinge pins 14 being located transversely beyond the centre lines of the corner post 13 and their stub corner posts 9.
~ As indicated in Figure 4, a plurality of collapsed containers may be assembled into a stack and the heights chosen for the stub corner posts may be such at a stack of say four or five collapsed containers has the same height ~ i as a standard container. The adjacent collapsed containers in the stack are secured together by "cones" 42, each cone having a ribbed base which slides into and engages the side .
of a slot in the top face of the corner casting 11 and an upwardly projecting lug portion 43 which projects into the underside of a superi~posed bottom corner casting 12 and ~ has a transverse bore 44 to receive a sliding bolt 45 on .~: y .:
: -,~
'~t~ 12 -. ~ . . .
i ' the superimposed container. The cones have an opening in their base by means of which they can be engaged over tongues 46 on the container end member 3 when not in use.
To prevent loss, the cones are connected to the stub corner post by chains 47.
Erection of a collapsed container is carried out by reversing the steps described above for collapsing an erected container.

... . .
,' .
' '' ` . . .
~` . ' ' ' .

, .. , ' " .

.

~: .

. .,~ .

`~'i , . .

.1 ., .

Claims (9)

The Embodiments of the Invention in which an Exclusive Property or Privilege is claimed are defined as follows:

1. A collapsible container of the open-platform type for conveying goods,said container comprising a generally rectangular platform base, a stub corner post upstanding at each corner of the platform base, a corner post pivotally connected to each stub corner post about an axis substantially parallel to the longer side of the base for pivotal movement independently of the other three corner posts from a folded-down position, in which it rests either on the base or on the other folded-down corner posts at that end of the base, through a vertical position into a position beyond the vertical, and bracing means at each end of the base for detachably holding the two corner posts at the respective sides vertical, with the bracing means substantially coplanar with their associated corner posts.

2. A collapsible container according to claim 1, wherein the articulation of each corner post to its stub corner post comprises a pivotal connection of axial length equal to the width of the corner post as measured in the length direction of the longer side of the platform.

3. A collapsible container according to claim 1, wherein the bracing means are detachably securable to the corner posts at positions adjacent their upper ends.

4. A collapsible container according to claim 3, wherein the bracing means includes a tie which in operation is secured to the two corner posts adjacent their upper ends and extends directly between them.

5. A collapsible container according to claim 4, wherein the bracing means comprises a triangular frame one side of which forms the tie and the opposite apex of the triangular frame cooperates with abutment means on the base at least to limit movement of the apex transversely of the base.

6. A collapsible container according to claim 5, wherein the frame is held captive to the base by an articulation between the base and the frame near the apex so that the frame can be swung down onto the base when collapsing the container.

7. A collapsible container according to claim 6, wherein the articulation is slack and separate from the abutment means so that no loads are transmitted through it in the erected position, particularly under transverse racking forces.

8. A collapsible container according to claim 1, wherein the bracing means comprises a full panel and the thrust points between the panel and the base are in the region of the stub corner posts.

9. A collapsible container according to claim 1, wherein the stub corner posts and the corner posts carry standardised connecting elements for coupling the standardised coupling elements on a superimposed container.