The present invention, as expressed in the wording of this specification, relates to a stackable container of the type comprising a bottom, two long lateral walls or side panels and two short lateral walls or front panels.
The object of the invention is a container that can be stackable with improvements that help stabilizing and reinforcing the assembly of the container itself, and that also help to improve the stacking by distributing the weight of the containers when stacked in a more homogeneous way, while the fitting thereof is facilitated during stacking.
Another object of the invention is the characteristic details in the assembly structure between the bottom and the lateral walls.
Therefore, the invention provides a better container in terms of resistance to elevated weights and optimizes automatic manipulation.
Several types of boxes and containers manufactured with corrugated cardboard, as well as with other more consistent materials are currently known, so that, in all cases, containers generally comprising a bottom, two long lateral walls or side panels and two short lateral walls or front panels, are formed.
The European invention patent under publication number 2322075 is also known, which relates to a mono-material container for horticultural use with a lid, which basically describes fixation means between the lateral walls and the bottom by means of a tongue and groove joint, also incorporating an upper part in the form of a lid arranged in correspondence with its mouthpiece.
Conventional containers or boxes, and more specifically, those corresponding to the aforementioned invention patent under publication number 2322075, have resistance and stability problems in the case of high weights in a stacking situation.
Therefore, in a column of stacked containers full of product, it is desirable that the weight is appropriately transmitted from the upper container all the way through the intermediate containers and down to the ground or support surface, so that its mechanical resistance is considerably greater and the breakage or fall of the column or stack is prevented, which would make its use unadvisable with high weights.
The stackable container that constitutes the object of the invention is determined based on independent laminar bodies made from cardboard or any other laminar material, said laminar structure comprising a bottom, two long lateral walls or side panels and two short lateral walls or front panels.
The stackable container of the present invention can also be made from wood, DM agglomerated plastic, etc.
The invention is characterized in that it incorporates projections starting from the free edges of the front and side panels, said projections being supplemented by notches established in the lower part of the side and front panels.
In addition, the front and side panels incorporate anchoring means in their adjacent lateral edges. These anchoring means are a combination of projections. The combination of the front panel projections comprises at least one upper front panel projection, one front panel projection and one lower front panel projection. The combination of side panel projections comprises at least one upper side panel projection, one side panel projection and one lower side panel projection. In addition, the container has at least one front panel notch and one side panel notch. The projections of the front and side panels are arranged alternatively on the adjacent lateral edges of the front and side panels, so that the front panel projections fit in the side panel notches and the side panel projections fit in the front panels notches.
The lower front panel projection delimits a front panel hole and the upper side panel projection delimits a side panel hole.
In addition, the lateral edges of the front panels incorporate angular ledges in which the straight ends of the side panel notch are positioned (R2).
The projections and the notches starting from the free edges of the front and side panels can present a trapezoidal configuration with rounded vertexes.
The side (2) panels and the front (3) panels are linked to the bottom (1) by means of projections that are adjusted in complementary slots. The bottom incorporates bottom side panel projections (35) in its edges, which match the side panels. Said projections are introduced in the lower side panel slots (36).
In turn, the front and side panels are linked to the bottom by means of projections that are adjusted in complementary slots.
In a first preferred embodiment of the invention, in order to improve the resistance conditions when the container is stacked, said container incorporates point support feet in its cornered areas in correspondence with its bottom, which are part of the lateral walls and are complemented by point support areas established in the cornered areas of the container in correspondence with its top opening. This way, when several containers full of products are stacked, the weight is transmitted point by point from the first container to the ones below until reaching the ground in correspondence with the cornered areas of the containers in a vertical linear direction, in which the aforementioned point feet and seats are located.
In an embodiment of the first preferred embodiment of the invention, the point feet are incorporated to the lower side panel projections, while the point seats are located in the upper front panel notches.
The function of the side panel notches can be, in addition to completing the side panel projections of an upper container when stacked, to delimit the lower part of the lower side panel projections and to also delimit the point feet incorporated to said lower side panel projections.
In another embodiment of the first preferred embodiment of the invention, the point feet are incorporated to the lower front panel projections (13′), while the point seats are located in the upper side panel projections (R6).
Other characteristics of the invention relate to the incorporation, in the cornered areas, of projections in the top opening of the box, which complement recesses established in correspondence with the bottom, recesses established on the lateral walls, so that, during stacking, the projections of a lower box are fitted and adjusted to the recesses of an upper box, said flaps and recesses favouring the convergence and alignment of the point feet and seats.
The projections that participate in the anchoring between the bottom and the lateral walls of the container may incorporate a barbed structure that considerably improves safety during the assembly of the container, preventing the accidental disassembly of said boxes.
In a second preferred embodiment of the invention, in order to improve the resistance conditions of the container when stacked, said container incorporates a base plank on the free upper edges of the front and side panels.
In a possible embodiment of the second preferred embodiment, the base plank incorporated by the container comprises two end base planks which ensure its positioning by means of characteristic projections that are part of the front and side panels and emerge towards the top of the same, said projections fitting in the complementary slots of the base planks. Another characteristic of the invention according to this possible embodiment of the second embodiment is that these projections are complemented with lower notches established in the lateral walls of the container themselves, so that when several containers are stacked, the projections of a lower container complimentarily fit the lower notches of an upper container, thus achieving a safe, reliable and precise stacking. This way, the projections generate retention stops to improve the stability of the stacking in terms of lateral movements, since they complement the notches provided for that purpose in the lateral walls themselves.
These end base planks are able to extend the support surface of the bottom of the upper containers, so that when several containers are stacked, the weight of said stacked containers is more uniformly distributed, while facilitating the fitting of the same at the same time. In addition, it should be noted that said projections present rounded vertexes that also contribute to the centring of the container.
All of the foregoing improves the container of the invention in terms of resistance to elevated weights, while also optimizing automatic manipulation.
The new structure of the container of the invention prevents deformations during the lateral compression of the containers when stacked. On the other hand, it should be noted that the side and front panel walls are connected to one another by means of characteristic anchoring means.
In another possible embodiment of the second preferred embodiment, the base planks are cornered base planks.
In another possible embodiment of the second preferred embodiment, the base planks comprise a complete base plank. Said complete base plank is provided with cornered slots where upper projections are adjusted, which are arranged in the end sections of the side panels by forming a part thereof, said connection of upper projections and cornered slots being complemented by other characteristic centred slots located in the vicinity of the short sides of the complete base plank, where characteristic centred projections starting from the free edge of the front panels are adjusted on the centred slots, forming an integral part thereof.
Another characteristic of this possible embodiment of the second preferred embodiment is that the centred projections of the front panels are provided with slots where projections of the complete base plank, which interrupt the continuity of the centred slots of said complete base plank, are fitted.
In order to complement said connection between the slots and the projections, the centred slots have end chamfers so that when the complete base plank is fitted in the top opening of the container, said end chamfers of the centred slots press and force the feet of the centred projections of the front panels to bend slightly inwards.
Therefore, the characteristic centred slots, thanks to the projections they include and also thanks to the end chamfers, present a characteristic specific geometry, so that, as indicated above, the end chamfers compress and softly curve the centred projections of the front panels, softly forcing them towards the interior of the container, thus improving the anchoring and the function of the projections themselves, which are adjusted on the slots of the centred projections of the front panels.
In a specific embodiment of this possible embodiment of the second preferred embodiment of the invention, the cornered slots of the complete base plank include notches for the introduction of the centring elements. These centring elements are used when there is a machine that places the complete base plank in its position in the container automatically. These notches essentially present a semicircular configuration.
The centred projections of the front panels are slightly trapezoidal in order to improve the introduction of the base plank and have an anchoring slotting for the corresponding projection and external steps to stabilize and retain the complete base plank to leave it coplanar to said steps. The complete base plank rests on the free upper edges of the later walls.
The complete base plank has grasping and aeration apertures, as well as longitudinal recesses to improve the sight of the product and aeration.
The complete base plank serves to improve the rigidity and the stacking when several containers are stacked.
In turn, the side panels and the front panels are linked to the bottom by means of projections that are adjusted in complementary slots.
Next, in order to facilitate a better comprehension of this specification and being an integral part thereof, figures representing the object of the invention in an illustrative rather than limitative manner, accompanies the specification.
Taking into account the numeration adopted in the figures, the stackable container comprises a bottom (1), two long lateral walls or side panels (2) and two short lateral walls or front panels (3), the front panels (3) having centred apertures (4) like handles to manipulate the container comfortably. Each one of these elements (lateral walls and bottom) is independent pieces connected to each other by their adjacent edges.
In turn, the side panels (2) incorporate wide trapezoidal mouthpieces (5) in their free edges.
The stackable container of the present invention is characterized in that it incorporates flat elements (10, 10′, 10″) that rest on at least the end portions of the free edges of the front (3) and side (2) panels, said flat elements (10, 10′, 10″) incorporating slots (11, 11′, 12) where the lower portions of projections (6, 6′, 7) starting from said free edges of the front (3) and side (2) panels are fitted. The bottom (1) of an upper container rests on the flat elements (10, 10′, 10″) of another lower container when several containers are stacked.
The incorporation of these flat elements (10, 10′, 10″) is the essential characteristic of the present invention, since no other container with flat elements of this type is known in the state of the art, which, aside from serving as support when stacking more than one container, serve to give strength to the container itself and to prevent said container from breaking or deforming when other containers carrying much weight are stacked on top.
These flat elements can comprise two end base planks (10), as shown in
The container incorporates projections (6, 6′, 7), which start from the free edges of the front (3) and side (2) panels, being said projections complemented by notches (8, 8′, 9) established in the lower part of the side (2) and front (3) panels. In addition, the side (2) and front (3) panels incorporate anchoring means in their adjacent lateral edges, which comprise a combination of projections comprising at least one front panel projection (13) and one side panel projection (14) and one front panel notch (15) and one side panel notch (16). The projections are arranged alternatively on the adjacent lateral edges of the side (2) and front (3) panels, so that the front panel projections (13) are fitted in the side panel notches (16) and the side panel projections (14) are fitted in the front panel notches (15), the front panel projections (13) incorporating a lower front panel projection (13′) delimiting a front panel hole (19) and the side panel projections (14) incorporating an upper side panel projection (14″) delimiting a side panel hole (20). As shown in the figures, the front and side panel projections (13, 14) are preferably hook-shaped.
The lateral edges of the front panels (3) can incorporate angular ledges (21) in which straight ends (22) of the side panel notch (16) are positioned.
The projections (6, 6′, 7) and the notches (8, 8′, 9) can present a trapezoidal configuration of rounded vertexes.
In a first embodiment of the invention, shown in
When several containers are stacked, the point feet (23) of an upper container rest on the point seats (24) of a lower container. This way, the load is transmitted to the ground precisely in the vertical directions of these point seats (24) and point feet (23).
In a possible embodiment of this first preferred embodiment, the point feet (23) are incorporated to the lower side panel projections (14′), while the point seats (24) are located on the upper front panel projections (13″).
In this first preferred embodiment, the lower edges of the front panels (3) incorporate projections with a barbed structure (25), which are adjusted in the bottom slots (26) complementary to the projections with the barbed structure (25).
In a second preferred embodiment of the invention, the container comprises at least one flat element.
In an embodiment of this second preferred embodiment, shown in
The centred projections (6) are located in the upper free edges of the centre of the front panels (3). The front panel projections (6′) are located at the end of the upper free edges of the front panels (3). The side panel projections (7) are located at the end of the upper free edges of the side panels (2).
The centred slots (8) are located on the lower free edge of the front panels (3) in the position complementary to the centred projections (6). The front panel slots (8′) are located in the lower free edge of the front panels (3) in the position complementary to the front panel projections (6′). The side panel slots (9) are located on the lower free edge of the side panels (2) in the position complementary to the side panel projections (7).
In this embodiment of the second preferred embodiment, when several containers are stacked, an upper container rests through its bottom (1) on the two end base planks (10), while the centred projection (6) and the side panel projection (7) of the upper container fit the centred notch (8), and the side panel notch (9) of the respective upper container. In addition, there are notches in the upper edge of the front panels (37), which are complementary to the projections with a barbed structure (25) located on the front panels (3).
This way, total stability and safety in the stacking of the containers are achieved, as well as great rigidity and strength in the assembly of the container.
In another possible embodiment of this second preferred embodiment, shown in
In addition, the container also comprises at least one front panel notch (8′) and one side panel notch (9), established in the lower part of the side (2) and front (3) panels.
On the other hand, the side (2) and the front (3) panels are connected to each other by means of characteristic anchoring means, as shown more clearly in
In turn, the lateral edges of the front panels (3) incorporate angular ledges (21) where the straight tips (22) of the side panel notches (16) are positioned.
When several containers are stacked, the bottom (1) of the upper container rests on the base plank (10′) of the lower container and the projections (6, 6′, 7) of said lower container fit in the notches (8, 8′, 9) of the upper container.
In another preferred embodiment of this second preferred embodiment, shown in
When several containers of this type are stacked, the projections of a lower container fit in the notches of a higher container.
In this embodiment example, the contour of the centred slot (11) of the complete base plank (10″) has at least one first projection (27), which is fitted in at least one slot of the centred projection (28), said centred slot (11) including end chamfers (29) intended to bend the centred projections (6) inward by their extremities and also intended to bend the front panels (3) inward.
The centred projections (6) can present a trapezoidal configuration and have end steps (30), which are levelled with the complete base plank (10″).
The side panel slots (14) can have recesses (31). In a possible embodiment, said recesses are circular in shape.
In addition, the complete base plank (10″) may have grasping (32) and aeration (33) apertures, as well as longitudinal recesses (18) in correspondence with the long edges of the complete base plank in order to improve the sight and aeration of the product.
In a possible embodiment of the invention, the side panel projections (7) incorporate a second rib (17), which is fitted in the side panel slot (12) of the complete base plank (10″).
Number | Date | Country | Kind |
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201030448 U | May 2010 | ES | national |
201030670 U | Jun 2010 | ES | national |
201030758 U | Jul 2010 | ES | national |
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7959063 | McLeod | Jun 2011 | B2 |
20060237341 | McDade | Oct 2006 | A1 |
20070075043 | Riogonzalez | Apr 2007 | A1 |
Number | Date | Country |
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0 154 558 | Sep 1985 | EP |
0 759 400 | Feb 1997 | EP |
1 009 523 | Sep 1989 | ES |
1 016 887 | Dec 1991 | ES |
1 072 454 | Jul 2010 | ES |
1 072 938 | Oct 2010 | ES |
2 613 699 | Oct 1988 | FR |
2006075031 | Jul 2006 | WO |
Entry |
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International Search Report issued May 11, 2011 in International (PCT) Application No. PCT/ES2010/070801. |
Number | Date | Country | |
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20130062241 A1 | Mar 2013 | US |
Number | Date | Country | |
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Parent | PCT/ES2010/070801 | Dec 2010 | US |
Child | 13671663 | US |