Embodiments of the invention concern a crate or container for accommodating products, more specifically, embodiments of the invention concern a plastic crate that is provided for receiving and/or for transporting foods, like fruits, vegetables, meat and the like.
Crates for storing and transporting products such as fruits and vegetables are widely used in the market. Such crates are light and stable which makes them suitable for bringing the crops from the field to the customer. For example, for tropical fruits like bananas, it is common to harvest the crop while it is still unripe and pack it into the crates for subsequent shipping and transportation. On this journey, the fruits have time to ripen. Also, other fruits like apples or the like, or vegetables like lettuce or the like, but also meat or eggs may be put into the crates at the producers site and transported using such crates.
Before the transport, the filled crates are usually stacked on top of each other and arranged side by side on two pallets and the pallets, as a whole, are then transported to respective transport facilities. Often, a specific cross-stacking technique is used, for example, a “5-down configuration”. In such a 5-down configuration, five crates are arranged adjacent to each other into a rectangular array, such that two of them form a row in the length direction and the other three form a row in the width direction. One problem with such kind of arrangement is that upon stacking the crates in this way, the three crates forming the row in the width direction abut with their shorter end walls the longer side walls of the two crates forming the row in the length direction. Thus, a force acting onto the lateral side walls of the crate arrangement in the length direction is high, especially in the central area of the side walls of the crates arranged in the length direction. This may result in a damaging of the crates during the transport or during stacking.
The above described crates may be plastic crates that comprise opposing end walls and opposing side walls extending from a bottom having a generally rectangular shape. The crates may also be formed from other materials, like wood, carton or the like. The crates may be so-called foldable crates, which means that the end walls and the side walls can be folded downward into the direction of the bottom. This allows the transport of empty crates in their folded state, for example to the fields, where the crop is harvested and directly put into the respective crates. This allows for shipping a high number of folded crates, using a minimum amount of transport capacity, thereby bringing the folded crates to the desired locations in an economical way. There are crates of different heights, i.e. some crates have walls extending from the bottom by a first distance, whereas others extend upward by a second distance that may be more than the first distance. The height of the crates, when being unfolded, depends on the products to be received therein and transported. The structure of the crate having the foldable walls may be such that the side walls when being folded downward onto the bottom may overlap. In such a case, to obtain a minimum possible height, conventional crates require a specific sequence of folding the respective wall portions. For example, first of all, the two end wall portions are to be folded onto the bottom and then a first of the two side walls is folded downward to rest on the folded-down end walls and then a second of the side walls is folded down afterwards. The respective side walls are configured in such a way that a minimum height of the folded crate is obtained without any parts extending beyond this height.
However, this approach is disadvantageous as it requires the user of a crate to be aware of how the crate is to be folded, i.e., the respective wall portions need to be folded in the correct way, otherwise the minimum height is not obtained and, in addition, elements of the wall portions may extend beyond the minimum height, thereby avoiding proper stacking of the folded crates. One solution to this problem is to provide a projection on the edge of the bottom extending upwardly from the bottom by a predefined distance, thereby ensuring that independent of the way the two side walls are folded, even in the “worst case”, none of the parts of the side walls extend above the upper end of the projection. While this solves the problem regarding parts extending beyond the height of the folded crate, it increases, at the same time, the height of the folded crate and thereby limits the overall number of folded crates that can be stacked and shipped. While this may seem a minor problem when looking only at a single crate, one has to consider the situation that a high number of such crates is folded and shipped by being placed on respective pallets and the projection having the increased height as mentioned above, may result in a loss of transport capacity of about 15%.
The crates described above, which are foldable, further comprise a locking mechanism that ensures a secure connection of the side walls and the end walls in the unfolded state of the crate. At the same time, an easy to handle mechanism must be provided for releasing the latch when it is desired to fold the crate after all products have been removed and the crate is to be shipped back to the supplier, for example, for cleaning. Crates having foldable walls therefore comprise release mechanisms that act onto the latch elements provided for releasing the latch and thereby allowing folding downward the respective side walls. For example, the side walls may comprise respective receptacles formed at a lateral edge thereof, a lateral edge is being adjacent to the end walls. In the end walls movable latch mechanisms may be provided, for example, a hook that is biased into a downward direction and engages with the receptacle in the side wall upon bringing the respective walls into their upright position. For example, when moving a side wall from the bottom position to the upright position, the hook is lifted upon passing the elements of the side wall and then, due to the downward bias, the hook is received in the receptacle. For releasing the latch by means of the release mechanism, the hook is lifted, so that the latch elements are disengaged and the side wall can be folded downward into the direction of the bottom again.
These mechanisms provide an easy to handle way for unfolding the crate, however, the mechanisms, in general, are provided such that same can be actuated any time the crate is in the unfolded state. This is disadvantageous as it also allows actuating the release mechanism when a plurality of crates are stacked, for example on a pallet. In such a situation due to a shock or to an erroneous handling a latch mechanism of one or more of the crates inside the stack may be actuated, thereby unlocking the respective wall element, making the stack as a whole unstable. In the worst case, this may result in the collapse of the stack because one or more of the crates inside the stack may no longer provide the required stability for supporting the crates stacked on top thereof.
As mentioned above, the crates may be used for transporting foods, like vegetables, fruits and meat or the like. These products may require cooling and it is therefore desired to provide to the interior of the crate a cooling liquid, like ice-water or the like ensuring that the goods stay fresh and/or at a desired temperature. While the crates, in general, have openings in the side walls and the bottom for allowing the circulation of air, these openings may not be sufficient to allow a sufficient flow of cooling liquid into the interior of the crate, for example, when using ice-water, it may well be that ice particles are within the fluid stream which cannot pass the holes provided for air ventilation and, that may actually block the holes, thereby avoiding that the liquid reaches the interior of the crate.
Embodiments of the invention provide an improved crate overcoming one or more of the problems of conventional crates described above.
In accordance with the first aspect, embodiments of the invention provide a crate including a bottom, two end walls, and two side walls. Each of the side walls includes a first lateral edge adjacent to the first end wall, a second lateral edge adjacent to the second end wall, a lower edge adjacent to the bottom, and an upper edge distant from the bottom. Each side wall includes a continuous stiffening member extending parallel to the lateral edges and at least partly to the upper edge. The continuous stiffening member includes a stiffening portion extending at least in one area between the lateral edges from the upper edge in the direction towards the lower edge and back to the upper edge.
In accordance with embodiments the stiffening portion is U-shaped and extends in a central area of a side wall towards the lower edge. In embodiments of the invention, the stiffening portion extends towards the lower edge such that a distance to the lower edge is smaller than or equal to half the height of the side wall. Alternatively, the stiffening member may extend to the lower edge of the side wall.
Embodiments may include a continuous stiffening member having a plurality of stiffening portions extending towards the lower edge of the side wall. In such embodiments, the plurality of stiffening members may have the same or different distances to the lower edge of the side wall.
Embodiments of the invention may provide a crate that is made of plastic and the continuous stiffening member may be formed by water injection molding. The crate may be foldable such that the end walls and the side walls can be folded with respect to the bottom.
Embodiments of the invention in accordance with a second aspect provide a crate including a bottom having two projections arranged at opposite length sides and extending upward from the bottom, to opposing end walls extending along width sides of the bottom, and two opposing side walls extending along the length sides of the bottom. The end walls and the side walls are configured to be foldable with respect to the bottom. The side walls have a height such that the side walls at least partially overlap when being folded. Each side wall is coupled to the bottom via at least one hinge, and each hinge is provided slidably in the projection such that the hinge is movable between a lower end of a projection adjacent to the bottom and an upper end of the projection.
In accordance with embodiments the height of the projection above the bottom corresponds substantially to the thickness of the two side walls. In accordance with embodiments, in the unfolded state, the lower ends of the side walls rest on an upper surface of the respective projections with the hinges for both side walls at a lower position close to the bottom, and in the folded state, the lower ends of the side walls are opposite to the inner surfaces of the respective projections with the hinges of the side walls at different heights in the projection, wherein one side wall rests on the end walls folded onto the bottom, and the other side wall, at least in part, rests on the one side wall.
In accordance with embodiments the hinge of the one side wall resting on the end walls remains at the lower position, and the hinge of the other side wall is in a position above the lower position, thereby allowing the arrangement of the folded side walls to be substantially parallel to the bottom, wherein an outer surface of the other side wall is substantially on the same level as the upper surface of the projections.
In accordance with embodiments the hinges may be configured such that in the folded state there is a gap between the lower surface of the side walls and the respective inner surfaces of the projections. The hinge may comprise an extension rod connecting the hinge element in the projection and the side wall. The extension rod defines the gap and has a length defined by the distance between the lower portion of the hinge and the height of the projection. Each side wall may include a plurality of hinges.
Embodiments of the invention in accordance with a third aspect provide a crate including a bottom, two end walls, and two side walls. The end walls and the side walls are configured to be foldable with respect to the bottom. The end walls and the side walls comprise respective latch elements engaging with each other to form a latch when the end walls and the side walls are in the unfolded state. A latch release mechanism is provided at the respective end walls or at the respective side walls, wherein the latch release mechanism and/or the latch elements on the respective walls are configured to be movable so as to extend above an upper edge of the respective wall for releasing the latch.
Embodiments provide a latch release mechanism that includes a lift bar having opposite ends connected to the latch elements of one of the walls and having a shape that at least a part of the latch release mechanism extends above the upper edge of the wall when being in a releasing position.
In accordance with other embodiments one of the engaging latch members is movable and one is stationary, wherein the movable latch member is configured to extend above the upper edge of the wall when being in a position releasing the stationary edge element. The movable latch element, when in the releasing position, may be configured to be folded together with a wall being moved towards the bottom.
In accordance with a fourth aspect embodiments of the invention provide a crate including a bottom, two end walls, and two side walls. At least one of the end and side walls comprises an inlet having a dimension allowing to introduce a predefined amount of cooling liquid into the interior of the crate.
In accordance with embodiments, at least two opposing walls may comprise a plurality of inlets, for example each side wall may comprise a plurality of inlets. In accordance with embodiments, each side wall includes first and second lateral edges adjacent to respective end walls, a lower edge adjacent to the bottom and an upper edge distant from the bottom. A first inlet is arranged adjacent a first upper corner of the side wall adjacent to the first lateral edge and the upper edge, and a second inlet is arranged adjacent a second upper corner of a side wall adjacent to the second lateral edge and the upper edge.
Other embodiments provide side walls having a continuous stiffening member extending parallel to the first and second lateral edges and parallel to the upper edge with a U-shaped portion in a central area extending toward the lower edge. A first inlet is provided at the left portion of the side wall at a distance from the lower edge with a part of the continuous stiffening member between the second inlet and the first lateral edge, the upper edge and the central area. A second inlet is provided at the right portion of the side wall at a distance from the lower edge with a part of the continuous stiffening member between the second inlet and the second lateral edge, the upper edge and the central area.
In accordance with embodiments, in the central area of the side wall a third inlet may be provided at a distance from the upper edge and with a part of the continuous stiffening member between the third inlet and the lower edge, the left portion and the right portion. The third inlet may have a dimension that is smaller than the dimension of the first and second inlet. The inlets may be provided with a lattice having a mesh size allowing the passage of a liquid, for example, ice-water having ice particles therein.
Embodiments of the invention in accordance with the first to fourth aspect may provide crates that are formed of plastic and that are provided for receiving and/or transporting foods, like fruits, vegetables, meat and the like.
Embodiments of the invention will be described with reference to the accompanying drawing, in which:
In the following description different aspects of a crate will be described, namely the aspect of providing an additional central stiffing element for avoiding damages of the side walls of a crate, the aspect of providing movable hinges of foldable side walls allowing the folding of the side walls of a crate, which are overlapping in the folded state in an arbitrary manner, the aspect providing a latch mechanism/latch release mechanism, avoiding unintentional opening of the latch of stacked crates, and the aspect of providing an inlet for introducing cooling liquid, like ice-water into the interior of the crate. However, first of all, elements of the crate being common to all aspects will be described with regard to
First Aspect—“Central Stiffening Portion”
In the following embodiments of the invention according to a first aspect will be described.
b) shows a cross-sectional view of the side wall 108a along the line b-b′. As can be seen, the stiffening member 116 has a hollow structure with a cavity 116a there between that is formed by the water injection molding process and provides for a member having a high stiffness with a reduced amount of material and thereby also with a reduced amount of weight.
The side wall structure shown in
Thus, the stiffening structure of the side wall of the crate shown in
Thus, in accordance with embodiments of the invention concerning the first aspect, a modified stiffening member is provided.
The arrangement of
Embodiments of the first aspect are not limited to the configuration shown in
While embodiments described above refer to U-shaped stiffening member portions extending towards the lower edge it is noted that the invention is not limited to such embodiments. Rather, in accordance with further embodiments, the portion of the stiffening member extending in an area of the side wall away from the lateral edges toward the bottom may be different, for example the portion may be V-shaped or may have, if desired, also an unsymmetrical shape.
Second Aspect—“Movable Hinges”
In the following, embodiments of the invention in accordance with a second aspect will be described. The second aspect concerns the folding of side walls of the crate which, when being folded down onto the bottom overlap each other. As mentioned above, the order of folding down the side walls in accordance with the conventional crates needs to be observed so as to correctly fold the crate to obtain a minimum remaining volume of the folded crate.
In accordance with a crate having a structure as it is shown in
However, when the folding order described with regard to
Thus, stacking the folded crate is not possible as the entire stack will become instable. Therefore, a conventional solution to this problem is to provide the projections 102a and 102b with a height such that independent from the order of folding the side walls 108a and 108b, a top level of the folded down side walls corresponds substantially to the height of the upper surfaces of the projections 102a and 102b. While this solves the problem of possible instable stacks of folded crates, at the same time, it reduces the number of folded crates that can be stacked as the minimum volume of the folded down crates is increased. In accordance with the investigations of the inventors of the invention, it was found out that the increase in minimum volume may be such that the entire amount of crates that may be transported on a common pallet may be reduced by as much as 15%, resulting in increased transport costs which is undesirable.
Therefore, in accordance with embodiments of the invention the hinge structure of the crate is modified in a manner as described in further detail below.
When folding the crate as it is shown in
b) shows a similar arrangement, however, with the first side wall 108a being folded down first, so that a hinge 150a remains at the position as it is in
In
Third Aspect—“Latch/Latch Release Mechanism”
In the following, embodiments of the invention in accordance with a third aspect will be described. Conventional foldable crates do have respective latch mechanisms that provide for a latching operation holding together the end walls and the side walls in their vertical position. An example of such a latch mechanism is the provision of a pair of movable latches in the end walls of a foldable crate which, in the vertical position, engage respective latch receiving elements that are provided in the adjacent side walls. Naturally, respective latches and latch receiving elements may be provided the other way around, i.e. the latches may be provided in the side walls and the latch receiving elements may be provided in the end walls.
While the latching mechanisms, in general, work fine and provide for a secure fastening of the respective wall portions when being in a vertical state, there is a drawback in that the latching mechanisms may be released also in cases when a plurality of crates are stacked on top of each other. This may result in the above-mentioned problems. For example, due to a shock or a mishandling of the crates when being stacked on a pallet the latching mechanism of one or more of such crates may be released, for example, by a shock that results in a movement of the latching elements in their releasing direction. This may result in a situation in which one or more crates within a stack of crates have non-latched walls, so that the structural integrity of the entire stack is jeopardized as one or more of the crates may collapse, so that further crates being stacked on top thereof will also fall down.
To avoid such situations, embodiments of the invention in accordance with the third aspect provide for a novel latch mechanism as it will be described below with regard to
b) shows the lift mechanism 186 in its unlocked position. As can be seen, the lift bar 108 was moved against the bias force of the spring elements 190a and 190b into a position that is closer to the bar 199 than in the locked position shown in
In the position as shown in
As can be seen from
Another advantage of the solution described with regard to embodiments of the invention concerning the locking mechanism is that it is not necessary to provide an expensive material to form the resilient members 198a and 198b, rather in accordance with the embodiments the same material can be used from which the crate as a whole is formed, for example, the same plastic material. Conventional approaches suffer from the disadvantage that the same material is used to form the crate and the resilient members, for example a plastic material. During the lifetime of the crate the spring member (the material from which it is formed) may loose all or part of its resilient characteristic. In such a situation the force to maintain/bias the lift mechanism into the position shown in
Thus, even in case the resilient member should loose its resilient characteristics an undesired opening of the mechanism is avoided as in the stack the lift bar cannot be moved above the upper edge of the crate thereby not allowing opening of the lock mechanism.
While
Fourth Aspect—“Cooling Liquid Inlets”
In the following, embodiments of the invention in accordance with a fourth aspect will be described. Conventional crates as described above only provide vent holes 110 allowing for a ventilation of air through the crate. However, for various reasons, for example for rapid cooling of goods inside the crates or for maintaining goods, like vegetables, for example lettuce and the like, at a predefined temperature it may be desired to also supply a cooling liquid, preferably ice-water into the interior of the crate. Since the cooling liquid, like ice-water, may also comprise small ice particles, it is not possible to introduce a desired amount of cooling liquid through the vent holes 110 shown in
In accordance with embodiments of the invention in accordance with the fourth aspect, a crate is provided that may provide one or more inlets for allowing the cooling liquid to be introduced into the interior of the crate, wherein one or more inlets have dimensions ensuring that the cooling liquid can be introduced as desired.
The arrangement of the inlet 200a-200c as shown in
In accordance with embodiments, the one or more inlets 200a-200c are provided with a mesh having a mesh size that is adapted such that particles provided in the cooling liquid may pass through the mesh without blocking the inlet. While
By means of embodiments of the fourth aspect of the invention, it is ensured that sufficient cooling liquid, like ice-water may be introduced into the interior of the crates even when same are stacked on a pallet as, for example, when stacking the crates on a Euro-pallet, three crates are arranged side by side in two rows with their side walls adjacent. Thus, the crates in the center of the stack have the side walls adjacent to respective side walls of the respective outer crates, so that when applying the liquid at the outer crates with a sufficient volume it will also pass due to the large inlet to the interior of the crate. The same is true for a 5-down configuration as it may be used in the U.S. and as is shown in
Thus, by means of embodiments of the fourth aspect of the invention, a sufficient flow of cooling liquid is ensured due to the provision of the inlet in accordance with embodiments of the invention.
In the above description of the invention, various embodiments of different aspects of a crate were described separately. However, embodiments of the invention are not limited to crates including only one of the four aspects, rather embodiments of the invention also concern a crate including one or more or all of the aspects described above. In other words, embodiments of the invention may provide a crate comprising one or more of the stiffening members in accordance with the first aspect, the movable hinges in accordance with the second aspect, the latch mechanism in accordance with the third aspect and the cooling liquid inlet in accordance with the fourth aspect.
The above described embodiments are merely illustrative for the principles of the present invention. It is understood that modifications and variations of the arrangements and the details described herein will be apparent to others skilled in the art. It is the intent, therefore, to be limited only by the scope of the impending patent claims and not by the specific details presented by way of description and explanation of embodiments herein.
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